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[matrix] Adds cogl_matrix_get_inverse API
This new API takes advantage of the recently imported Mesa code to support inverse matrix calculation. The matrix code keeps track (via internal flags) of the transformations a matrix represents so that it can select an optimized inversion function. Note: although other aspects of the Cogl matrix API have followed a similar style to Cairo's matrix API we haven't added a cogl_matrix_invert API because the inverse of a CoglMatrix is actually cached as part of the CoglMatrix structure meaning a destructive API like cogl_matrix_invert doesn't let users take advantage of this caching design.
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@ -61,9 +61,6 @@ typedef struct
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CoglMatrixMode flushed_matrix_mode;
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GList *texture_units;
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/* Cache of inverse projection matrix */
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float inverse_projection[16];
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/* Materials */
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CoglHandle default_material;
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CoglHandle source_material;
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@ -348,6 +348,17 @@ _cogl_matrix_stack_ortho (CoglMatrixStack *stack,
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state->is_identity = FALSE;
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}
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gboolean
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_cogl_matrix_stack_get_inverse (CoglMatrixStack *stack,
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CoglMatrix *inverse)
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{
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CoglMatrixState *state;
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state = _cogl_matrix_stack_top_mutable (stack, TRUE);
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return cogl_matrix_get_inverse (&state->matrix, inverse);
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}
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void
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_cogl_matrix_stack_get (CoglMatrixStack *stack,
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CoglMatrix *matrix)
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@ -71,6 +71,9 @@ void _cogl_matrix_stack_ortho (CoglMatrixStack *stack,
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float top,
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float z_near,
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float z_far);
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gboolean _cogl_matrix_stack_get_inverse (CoglMatrixStack *stack,
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CoglMatrix *inverse);
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void _cogl_matrix_stack_get (CoglMatrixStack *stack,
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CoglMatrix *matrix);
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void _cogl_matrix_stack_set (CoglMatrixStack *stack,
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@ -183,18 +183,6 @@ cogl_matrix_scale (CoglMatrix *matrix,
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_COGL_MATRIX_DEBUG_PRINT (matrix);
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}
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#if 0
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gboolean
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cogl_matrix_invert (CoglMatrix *matrix)
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{
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/* TODO */
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/* Note: It might be nice to also use the flag based tricks that mesa does
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* to alow it to track the type of transformations a matrix represents
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* so it can use various assumptions to optimise the inversion.
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*/
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}
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#endif
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void
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cogl_matrix_frustum (CoglMatrix *matrix,
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float left,
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@ -321,6 +309,27 @@ cogl_matrix_get_array (const CoglMatrix *matrix)
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return (float *)matrix;
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}
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gboolean
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cogl_matrix_get_inverse (const CoglMatrix *matrix, CoglMatrix *inverse)
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{
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#ifndef USE_MESA_MATRIX_API
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#warning "cogl_matrix_get_inverse not supported without Mesa matrix API"
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cogl_matrix_init_identity (inverse);
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return FALSE;
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#else
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if (_math_matrix_update_inverse ((CoglMatrix *)matrix))
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{
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cogl_matrix_init_from_array (inverse, matrix->inv);
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return TRUE;
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}
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else
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{
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cogl_matrix_init_identity (inverse);
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return FALSE;
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}
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#endif
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}
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void
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cogl_matrix_transform_point (const CoglMatrix *matrix,
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float *x,
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@ -266,6 +266,27 @@ void cogl_matrix_init_from_array (CoglMatrix *matrix, const float *array);
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*/
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G_CONST_RETURN float *cogl_matrix_get_array (const CoglMatrix *matrix);
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/**
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* cogl_matrix_get_inverse:
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* @matrix: A 4x4 transformation matrix
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* @inverse: The destination for a 4x4 inverse transformation matrix
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*
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* This gets the inverse transform of a given matrix and uses it to initialize
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* a new CoglMatrix.
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*
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* Note: that although the first parameter is annotated as const to indicate
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* that the transform it represents isn't modified this function may
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* technically save a copy of the inverse transform within the given CoglMatrix
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* so that subsequent requests for the inverse transform may avoid costly
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* inversion calculations.
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*
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* Returns TRUE if the inverse was successfully calculated or FALSE for
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* degenerate transformations that can't be inverted (in this case the matrix
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* will simply be initialized with the identity matrix)
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*/
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gboolean
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cogl_matrix_get_inverse (const CoglMatrix *matrix, CoglMatrix *inverse);
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/**
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* cogl_matrix_transform_point:
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* @matrix: A 4x4 transformation matrix
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47
cogl/cogl.c
47
cogl/cogl.c
@ -368,13 +368,17 @@ set_clip_plane (GLint plane_num,
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GLdouble plane[4];
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#endif
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GLfloat angle;
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CoglMatrix inverse_projection;
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CoglHandle draw_buffer = _cogl_get_draw_buffer ();
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CoglMatrixStack *modelview_stack =
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_cogl_draw_buffer_get_modelview_stack (draw_buffer);
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CoglMatrixStack *projection_stack =
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_cogl_draw_buffer_get_projection_stack (draw_buffer);
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CoglMatrix inverse_projection;
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_COGL_GET_CONTEXT (ctx, NO_RETVAL);
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_cogl_matrix_stack_get_inverse (projection_stack, &inverse_projection);
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/* Calculate the angle between the axes and the line crossing the
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two points */
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angle = atan2f (vertex_b[1] - vertex_a[1],
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@ -382,13 +386,10 @@ set_clip_plane (GLint plane_num,
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_cogl_matrix_stack_push (modelview_stack);
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/* Load the identity matrix and multiply by the reverse of the
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projection matrix so we can specify the plane in screen
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coordinates */
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_cogl_matrix_stack_load_identity (modelview_stack);
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cogl_matrix_init_from_array (&inverse_projection,
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ctx->inverse_projection);
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_cogl_matrix_stack_multiply (modelview_stack, &inverse_projection);
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/* Load the inverse of the projection matrix so we can specify the plane
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* in screen coordinates */
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_cogl_matrix_stack_set (modelview_stack, &inverse_projection);
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/* Rotate about point a */
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_cogl_matrix_stack_translate (modelview_stack,
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vertex_a[0], vertex_a[1], vertex_a[2]);
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@ -1095,7 +1096,6 @@ cogl_frustum (float left,
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float z_near,
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float z_far)
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{
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float c, d;
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CoglMatrixStack *projection_stack =
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_cogl_draw_buffer_get_projection_stack (_cogl_get_draw_buffer ());
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@ -1110,22 +1110,6 @@ cogl_frustum (float left,
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top,
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z_near,
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z_far);
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/* Calculate and store the inverse of the matrix */
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memset (ctx->inverse_projection, 0, sizeof (float) * 16);
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c = - (z_far + z_near) / (z_far - z_near);
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d = - (2 * (z_far * z_near)) / (z_far - z_near);
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#define M(row,col) ctx->inverse_projection[col*4+row]
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M(0,0) = (right - left) / (2 * z_near);
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M(0,3) = (right + left) / (2 * z_near);
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M(1,1) = (top - bottom) / (2 * z_near);
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M(1,3) = (top + bottom) / (2 * z_near);
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M(2,3) = -1.0;
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M(3,2) = 1.0 / d;
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M(3,3) = c / d;
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#undef M
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}
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void
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@ -1145,19 +1129,6 @@ cogl_ortho (float left,
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cogl_matrix_init_identity (&ortho);
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cogl_matrix_ortho (&ortho, left, right, bottom, top, z_near, z_far);
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_cogl_matrix_stack_set (projection_stack, &ortho);
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/* Calculate and store the inverse of the matrix */
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memset (ctx->inverse_projection, 0, sizeof (float) * 16);
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#define M(row,col) ctx->inverse_projection[col*4+row]
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M(0,0) = 1.0 / ortho.xx;
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M(0,3) = -ortho.xw;
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M(1,1) = 1.0 / ortho.yy;
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M(1,3) = -ortho.yw;
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M(2,2) = 1.0 / ortho.zz;
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M(2,3) = -ortho.zw;
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M(3,3) = 1.0;
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#undef M
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}
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void
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