mirror of
https://github.com/mpv-player/mpv
synced 2025-01-10 00:49:32 +00:00
93546f0c2f
This is a pretty major rewrite of the internal texture binding mechanic, which makes it more flexible. In general, the difference between the old and current approaches is that now, all texture description is held in a struct img_tex and only explicitly bound with pass_bind. (Once bound, a texture unit is assumed to be set in stone and no longer tied to the img_tex) This approach makes the code inside pass_read_video significantly more flexible and cuts down on the number of weird special cases and spaghetti logic. It also has some improvements, e.g. cutting down greatly on the number of unnecessary conversion passes inside pass_read_video (which was previously mostly done to cope with the fact that the alternative would have resulted in a combinatorial explosion of code complexity). Some other notable changes (and potential improvements): - texture expansion is now *always* handled in pass_read_video, and the colormatrix never does this anymore. (Which means the code could probably be removed from the colormatrix generation logic, modulo some other VOs) - struct fbo_tex now stores both its "physical" and "logical" (configured) size, which cuts down on the amount of width/height baggage on some function calls - vo_opengl can now technically support textures with different bit depths (e.g. 10 bit luma, 8 bit chroma) - but the APIs it queries inside img_format.c doesn't export this (nor does ffmpeg support it, really) so the status quo of using the same tex_mul for all planes is kept. - dumb_mode is now only needed because of the indirect_fbo being in the main rendering pipeline. If we reintroduce p->use_indirect and thread a transform through the entire program this could be skipped where unnecessary, allowing for the removal of dumb_mode. But I'm not sure how to do this in a clean way. (Which is part of why it got introduced to begin with) - It would be trivial to resurrect source-shader now (it would just be one extra 'if' inside pass_read_video).
164 lines
5.7 KiB
C
164 lines
5.7 KiB
C
/*
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* This file is part of mpv.
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* Parts based on MPlayer code by Reimar Döffinger.
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*
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* mpv 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 2.1 of the License, or (at your option) any later version.
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*
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* mpv 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
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* GNU 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 mpv. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef MP_GL_UTILS_
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#define MP_GL_UTILS_
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#include "common.h"
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struct mp_log;
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void glCheckError(GL *gl, struct mp_log *log, const char *info);
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int glFmt2bpp(GLenum format, GLenum type);
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void glUploadTex(GL *gl, GLenum target, GLenum format, GLenum type,
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const void *dataptr, int stride,
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int x, int y, int w, int h, int slice);
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void glClearTex(GL *gl, GLenum target, GLenum format, GLenum type,
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int x, int y, int w, int h, uint8_t val, void **scratch);
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mp_image_t *glGetWindowScreenshot(GL *gl);
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const char* mp_sampler_type(GLenum texture_target);
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// print a multi line string with line numbers (e.g. for shader sources)
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// log, lev: module and log level, as in mp_msg()
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void mp_log_source(struct mp_log *log, int lev, const char *src);
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struct gl_vao_entry {
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// used for shader / glBindAttribLocation
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const char *name;
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// glVertexAttribPointer() arguments
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int num_elems; // size (number of elements)
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GLenum type;
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bool normalized;
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int offset;
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};
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struct gl_vao {
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GL *gl;
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GLuint vao; // the VAO object, or 0 if unsupported by driver
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GLuint buffer; // GL_ARRAY_BUFFER used for the data
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int stride; // size of each element (interleaved elements are assumed)
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const struct gl_vao_entry *entries;
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};
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void gl_vao_init(struct gl_vao *vao, GL *gl, int stride,
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const struct gl_vao_entry *entries);
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void gl_vao_uninit(struct gl_vao *vao);
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void gl_vao_bind(struct gl_vao *vao);
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void gl_vao_unbind(struct gl_vao *vao);
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void gl_vao_draw_data(struct gl_vao *vao, GLenum prim, void *ptr, size_t num);
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struct fbotex {
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GL *gl;
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GLuint fbo;
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GLuint texture;
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GLenum iformat;
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GLenum tex_filter;
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int rw, rh; // real (texture) size
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int lw, lh; // logical (configured) size
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};
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bool fbotex_init(struct fbotex *fbo, GL *gl, struct mp_log *log, int w, int h,
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GLenum iformat);
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void fbotex_uninit(struct fbotex *fbo);
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bool fbotex_change(struct fbotex *fbo, GL *gl, struct mp_log *log, int w, int h,
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GLenum iformat, int flags);
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#define FBOTEX_FUZZY_W 1
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#define FBOTEX_FUZZY_H 2
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#define FBOTEX_FUZZY (FBOTEX_FUZZY_W | FBOTEX_FUZZY_H)
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void fbotex_set_filter(struct fbotex *fbo, GLenum gl_filter);
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// A 3x2 matrix, with the translation part separate.
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struct gl_transform {
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float m[2][2];
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float t[2];
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};
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static const struct gl_transform identity_trans = {
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.m = {{1.0, 0.0}, {0.0, 1.0}},
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.t = {0.0, 0.0},
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};
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void gl_transform_ortho(struct gl_transform *t, float x0, float x1,
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float y0, float y1);
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// This treats m as an affine transformation, in other words m[2][n] gets
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// added to the output.
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static inline void gl_transform_vec(struct gl_transform t, float *x, float *y)
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{
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float vx = *x, vy = *y;
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*x = vx * t.m[0][0] + vy * t.m[1][0] + t.t[0];
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*y = vx * t.m[0][1] + vy * t.m[1][1] + t.t[1];
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}
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struct mp_rect_f {
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float x0, y0, x1, y1;
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};
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static inline void gl_transform_rect(struct gl_transform t, struct mp_rect_f *r)
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{
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gl_transform_vec(t, &r->x0, &r->y0);
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gl_transform_vec(t, &r->x1, &r->y1);
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}
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static inline bool gl_transform_eq(struct gl_transform a, struct gl_transform b)
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{
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for (int x = 0; x < 2; x++) {
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for (int y = 0; y < 2; y++) {
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if (a.m[x][y] != b.m[x][y])
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return false;
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}
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}
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return a.t[0] == b.t[0] && a.t[1] == b.t[1];
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}
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void gl_transform_trans(struct gl_transform t, struct gl_transform *x);
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void gl_set_debug_logger(GL *gl, struct mp_log *log);
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struct gl_shader_cache;
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struct gl_shader_cache *gl_sc_create(GL *gl, struct mp_log *log);
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void gl_sc_destroy(struct gl_shader_cache *sc);
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void gl_sc_add(struct gl_shader_cache *sc, const char *text);
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void gl_sc_addf(struct gl_shader_cache *sc, const char *textf, ...);
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void gl_sc_hadd(struct gl_shader_cache *sc, const char *text);
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void gl_sc_haddf(struct gl_shader_cache *sc, const char *textf, ...);
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void gl_sc_uniform_sampler(struct gl_shader_cache *sc, char *name, GLenum target,
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int unit);
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void gl_sc_uniform_sampler_ui(struct gl_shader_cache *sc, char *name, int unit);
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void gl_sc_uniform_f(struct gl_shader_cache *sc, char *name, GLfloat f);
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void gl_sc_uniform_i(struct gl_shader_cache *sc, char *name, GLint f);
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void gl_sc_uniform_vec2(struct gl_shader_cache *sc, char *name, GLfloat f[2]);
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void gl_sc_uniform_vec3(struct gl_shader_cache *sc, char *name, GLfloat f[3]);
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void gl_sc_uniform_mat2(struct gl_shader_cache *sc, char *name,
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bool transpose, GLfloat *v);
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void gl_sc_uniform_mat3(struct gl_shader_cache *sc, char *name,
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bool transpose, GLfloat *v);
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void gl_sc_uniform_buffer(struct gl_shader_cache *sc, char *name,
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const char *text, int binding);
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void gl_sc_set_vao(struct gl_shader_cache *sc, struct gl_vao *vao);
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void gl_sc_enable_extension(struct gl_shader_cache *sc, char *name);
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void gl_sc_gen_shader_and_reset(struct gl_shader_cache *sc);
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void gl_sc_reset(struct gl_shader_cache *sc);
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#endif
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