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e3d6bc36d3
This re-designs the matrix stack so we now keep track of each separate operation such as rotating, scaling, translating and multiplying as immutable, ref-counted nodes in a graph. Being a "graph" here means that different transformations composed of a sequence of linked operation nodes may share nodes. The first node in a matrix-stack is always a LOAD_IDENTITY operation. As an example consider if an application where to draw three rectangles A, B and C something like this: cogl_framebuffer_scale (fb, 2, 2, 2); cogl_framebuffer_push_matrix(fb); cogl_framebuffer_translate (fb, 10, 0, 0); cogl_framebuffer_push_matrix(fb); cogl_framebuffer_rotate (fb, 45, 0, 0, 1); cogl_framebuffer_draw_rectangle (...); /* A */ cogl_framebuffer_pop_matrix(fb); cogl_framebuffer_draw_rectangle (...); /* B */ cogl_framebuffer_pop_matrix(fb); cogl_framebuffer_push_matrix(fb); cogl_framebuffer_set_modelview_matrix (fb, &mv); cogl_framebuffer_draw_rectangle (...); /* C */ cogl_framebuffer_pop_matrix(fb); That would result in a graph of nodes like this: LOAD_IDENTITY | SCALE / \ SAVE LOAD | | TRANSLATE RECTANGLE(C) | \ SAVE RECTANGLE(B) | ROTATE | RECTANGLE(A) Each push adds a SAVE operation which serves as a marker to rewind too when a corresponding pop is issued and also each SAVE node may also store a cached matrix representing the composition of all its ancestor nodes. This means if we repeatedly need to resolve a real CoglMatrix for a given node then we don't need to repeat the composition. Some advantages of this design are: - A single pointer to any node in the graph can now represent a complete, immutable transformation that can be logged for example into a journal. Previously we were storing a full CoglMatrix in each journal entry which is 16 floats for the matrix itself as well as space for flags and another 16 floats for possibly storing a cache of the inverse. This means that we significantly reduce the size of the journal when drawing lots of primitives and we also avoid copying over 128 bytes per entry. - It becomes much cheaper to check for equality. In cases where some (unlikely) false negatives are allowed simply comparing the pointers of two matrix stack graph entries is enough. Previously we would use memcmp() to compare matrices. - It becomes easier to do comparisons of transformations. By looking for the common ancestry between nodes we can determine the operations that differentiate the transforms and use those to gain a high level understanding of the differences. For example we use this in the journal to be able to efficiently determine when two rectangle transforms only differ by some translation so that we can perform software clipping. Reviewed-by: Neil Roberts <neil@linux.intel.com> (cherry picked from commit f75aee93f6b293ca7a7babbd8fcc326ee6bf7aef)
227 lines
7.3 KiB
C
227 lines
7.3 KiB
C
/*
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* Cogl
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*
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* An object oriented GL/GLES Abstraction/Utility Layer
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*
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* Copyright (C) 2007,2008,2009,2010 Intel Corporation.
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library. If not, see <http://www.gnu.org/licenses/>.
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*
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*
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*/
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#ifndef __COGL_CLIP_STACK_H
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#define __COGL_CLIP_STACK_H
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#include "cogl2-path.h"
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#include "cogl-matrix.h"
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#include "cogl-primitive.h"
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#include "cogl-framebuffer.h"
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#include "cogl-matrix-stack.h"
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/* The clip stack works like a GSList where only a pointer to the top
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of the stack is stored. The empty clip stack is represented simply
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by the NULL pointer. When an entry is added to or removed from the
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stack the new top of the stack is returned. When an entry is pushed
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a new clip stack entry is created which effectively takes ownership
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of the reference on the old entry. Therefore unrefing the top entry
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effectively loses ownership of all entries in the stack */
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typedef struct _CoglClipStack CoglClipStack;
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typedef struct _CoglClipStackRect CoglClipStackRect;
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typedef struct _CoglClipStackWindowRect CoglClipStackWindowRect;
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typedef struct _CoglClipStackPath CoglClipStackPath;
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typedef struct _CoglClipStackPrimitive CoglClipStackPrimitive;
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typedef enum
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{
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COGL_CLIP_STACK_RECT,
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COGL_CLIP_STACK_WINDOW_RECT,
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COGL_CLIP_STACK_PATH,
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COGL_CLIP_STACK_PRIMITIVE
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} CoglClipStackType;
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/* A clip stack consists a list of entries. Each entry has a reference
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* count and a link to its parent node. The child takes a reference on
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* the parent and the CoglClipStack holds a reference to the top of
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* the stack. There are no links back from the parent to the
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* children. This allows stacks that have common ancestry to share the
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* entries.
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*
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* For example, the following sequence of operations would generate
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* the tree below:
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*
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* CoglClipStack *stack_a = NULL;
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* stack_a = _cogl_clip_stack_push_rectangle (stack_a, ...);
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* stack_a = _cogl_clip_stack_push_rectangle (stack_a, ...);
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* stack_a = _cogl_clip_stack_push_from_path (stack_a, ...);
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* CoglClipStack *stack_b = NULL;
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* stack_b = cogl_clip_stack_push_window_rectangle (stack_b, ...);
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*
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* stack_a
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* \ holds a ref to
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* +-----------+
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* | path node |
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* |ref count 1|
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* +-----------+
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* \
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* +-----------+ +-----------+
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* both tops hold | rect node | | rect node |
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* a ref to the |ref count 2|--|ref count 1|
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* same rect node +-----------+ +-----------+
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* /
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* +-----------+
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* | win. rect |
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* |ref count 1|
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* +-----------+
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* / holds a ref to
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* stack_b
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*
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*/
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struct _CoglClipStack
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{
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CoglClipStackType type;
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/* This will be null if there is no parent. If it is not null then
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this node must be holding a reference to the parent */
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CoglClipStack *parent;
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/* All clip entries have a window-space bounding box which we can
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use to calculate a scissor. The scissor limits the clip so that
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we don't need to do a full stencil clear if the stencil buffer is
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needed. This is stored in Cogl's coordinate space (ie, 0,0 is the
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top left) */
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int bounds_x0;
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int bounds_y0;
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int bounds_x1;
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int bounds_y1;
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unsigned int ref_count;
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};
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struct _CoglClipStackRect
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{
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CoglClipStack _parent_data;
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/* The rectangle for this clip */
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float x0;
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float y0;
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float x1;
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float y1;
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/* If this is true then the clip for this rectangle is entirely
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described by the scissor bounds. This implies that the rectangle
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is screen aligned and we don't need to use the stencil buffer to
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set the clip. We keep the entry as a rect entry rather than a
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window rect entry so that it will be easier to detect if the
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modelview matrix is that same as when a rectangle is added to the
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journal. In that case we can use the original clip coordinates
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and modify the rectangle instead. */
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CoglBool can_be_scissor;
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/* The matrix that was current when the clip was set */
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CoglMatrixEntry *matrix_entry;
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};
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struct _CoglClipStackWindowRect
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{
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CoglClipStack _parent_data;
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/* The window rect clip doesn't need any specific data because it
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just adds to the scissor clip */
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};
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struct _CoglClipStackPath
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{
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CoglClipStack _parent_data;
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/* The matrix that was current when the clip was set */
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CoglMatrixEntry *matrix_entry;
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CoglPath *path;
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};
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struct _CoglClipStackPrimitive
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{
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CoglClipStack _parent_data;
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/* The matrix that was current when the clip was set */
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CoglMatrixEntry *matrix_entry;
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CoglPrimitive *primitive;
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float bounds_x1;
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float bounds_y1;
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float bounds_x2;
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float bounds_y2;
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};
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CoglClipStack *
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_cogl_clip_stack_push_window_rectangle (CoglClipStack *stack,
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int x_offset,
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int y_offset,
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int width,
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int height);
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CoglClipStack *
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_cogl_clip_stack_push_rectangle (CoglClipStack *stack,
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float x_1,
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float y_1,
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float x_2,
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float y_2,
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CoglMatrixEntry *modelview_entry,
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CoglMatrixEntry *projection_entry,
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const float *viewport);
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CoglClipStack *
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_cogl_clip_stack_push_from_path (CoglClipStack *stack,
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CoglPath *path,
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CoglMatrixEntry *modelview_entry,
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CoglMatrixEntry *projection_entry,
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const float *viewport);
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CoglClipStack *
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_cogl_clip_stack_push_primitive (CoglClipStack *stack,
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CoglPrimitive *primitive,
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float bounds_x1,
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float bounds_y1,
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float bounds_x2,
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float bounds_y2,
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CoglMatrixEntry *modelview_entry,
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CoglMatrixEntry *projection_entry,
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const float *viewport);
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CoglClipStack *
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_cogl_clip_stack_pop (CoglClipStack *stack);
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void
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_cogl_clip_stack_get_bounds (CoglClipStack *stack,
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int *scissor_x0,
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int *scissor_y0,
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int *scissor_x1,
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int *scissor_y1);
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void
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_cogl_clip_stack_flush (CoglClipStack *stack,
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CoglFramebuffer *framebuffer);
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CoglClipStack *
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_cogl_clip_stack_ref (CoglClipStack *stack);
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void
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_cogl_clip_stack_unref (CoglClipStack *stack);
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#endif /* __COGL_CLIP_STACK_H */
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