mirror of
https://gitlab.freedesktop.org/wlroots/wlroots.git
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234d31f138
- Add general description - Mention the computer theory problem that this is solving - More wording cleanup
273 lines
7.1 KiB
C
273 lines
7.1 KiB
C
#include <assert.h>
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#include <drm_fourcc.h>
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#include <drm_mode.h>
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#include <drm.h>
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#include <libdisplay-info/cvt.h>
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#include <libdisplay-info/edid.h>
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#include <libdisplay-info/info.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <wlr/util/log.h>
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#include "backend/drm/drm.h"
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#include "backend/drm/util.h"
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int32_t calculate_refresh_rate(const drmModeModeInfo *mode) {
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int32_t refresh = (mode->clock * 1000000LL / mode->htotal +
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mode->vtotal / 2) / mode->vtotal;
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if (mode->flags & DRM_MODE_FLAG_INTERLACE) {
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refresh *= 2;
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}
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if (mode->flags & DRM_MODE_FLAG_DBLSCAN) {
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refresh /= 2;
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}
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if (mode->vscan > 1) {
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refresh /= mode->vscan;
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}
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return refresh;
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}
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enum wlr_output_mode_aspect_ratio get_picture_aspect_ratio(const drmModeModeInfo *mode) {
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switch (mode->flags & DRM_MODE_FLAG_PIC_AR_MASK) {
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case DRM_MODE_FLAG_PIC_AR_NONE:
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return WLR_OUTPUT_MODE_ASPECT_RATIO_NONE;
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case DRM_MODE_FLAG_PIC_AR_4_3:
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return WLR_OUTPUT_MODE_ASPECT_RATIO_4_3;
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case DRM_MODE_FLAG_PIC_AR_16_9:
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return WLR_OUTPUT_MODE_ASPECT_RATIO_16_9;
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case DRM_MODE_FLAG_PIC_AR_64_27:
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return WLR_OUTPUT_MODE_ASPECT_RATIO_64_27;
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case DRM_MODE_FLAG_PIC_AR_256_135:
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return WLR_OUTPUT_MODE_ASPECT_RATIO_256_135;
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default:
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wlr_log(WLR_ERROR, "Unknown mode picture aspect ratio: %u",
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mode->flags & DRM_MODE_FLAG_PIC_AR_MASK);
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return WLR_OUTPUT_MODE_ASPECT_RATIO_NONE;
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}
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}
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void parse_edid(struct wlr_drm_connector *conn, size_t len, const uint8_t *data) {
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struct wlr_output *output = &conn->output;
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free(output->make);
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free(output->model);
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free(output->serial);
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output->make = NULL;
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output->model = NULL;
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output->serial = NULL;
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struct di_info *info = di_info_parse_edid(data, len);
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if (info == NULL) {
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wlr_log(WLR_ERROR, "Failed to parse EDID");
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return;
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}
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const struct di_edid *edid = di_info_get_edid(info);
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const struct di_edid_vendor_product *vendor_product = di_edid_get_vendor_product(edid);
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char pnp_id[] = {
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vendor_product->manufacturer[0],
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vendor_product->manufacturer[1],
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vendor_product->manufacturer[2],
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'\0',
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};
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const char *manu = get_pnp_manufacturer(vendor_product->manufacturer);
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if (!manu) {
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manu = pnp_id;
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}
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output->make = strdup(manu);
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output->model = di_info_get_model(info);
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output->serial = di_info_get_serial(info);
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di_info_destroy(info);
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}
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const char *drm_connector_status_str(drmModeConnection status) {
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switch (status) {
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case DRM_MODE_CONNECTED:
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return "connected";
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case DRM_MODE_DISCONNECTED:
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return "disconnected";
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case DRM_MODE_UNKNOWNCONNECTION:
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return "unknown";
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}
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return "<unsupported>";
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}
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static bool is_taken(size_t n, const uint32_t arr[static n], uint32_t key) {
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for (size_t i = 0; i < n; ++i) {
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if (arr[i] == key) {
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return true;
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}
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}
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return false;
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}
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/*
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* Store all of the non-recursive state in a struct, so we aren't literally
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* passing 12 arguments to a function.
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*/
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struct match_state {
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const size_t num_conns;
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const uint32_t *restrict conns;
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const size_t num_crtcs;
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size_t score;
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size_t replaced;
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uint32_t *restrict res;
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uint32_t *restrict best;
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const uint32_t *restrict orig;
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bool exit_early;
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};
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/**
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* Step to process a CRTC.
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*
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* This is a naive implementation of maximum bipartite matching.
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*
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* score: The number of connectors we've matched so far.
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* replaced: The number of changes from the original solution.
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* crtc_index: The index of the current CRTC.
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*
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* This tries to match a solution as close to st->orig as it can.
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*
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* Returns whether we've set a new best element with this solution.
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*/
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static bool match_connectors_with_crtcs_(struct match_state *st,
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size_t score, size_t replaced, size_t crtc_index) {
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// Finished
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if (crtc_index >= st->num_crtcs) {
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if (score > st->score ||
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(score == st->score && replaced < st->replaced)) {
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st->score = score;
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st->replaced = replaced;
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memcpy(st->best, st->res, sizeof(st->best[0]) * st->num_crtcs);
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st->exit_early = (st->score == st->num_crtcs
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|| st->score == st->num_conns)
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&& st->replaced == 0;
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return true;
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} else {
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return false;
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}
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}
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bool has_best = false;
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/*
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* Attempt to use the current solution first, to try and avoid
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* recalculating everything
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*/
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if (st->orig[crtc_index] != UNMATCHED && !is_taken(crtc_index, st->res, st->orig[crtc_index])) {
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st->res[crtc_index] = st->orig[crtc_index];
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size_t crtc_score = st->conns[st->res[crtc_index]] != 0 ? 1 : 0;
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if (match_connectors_with_crtcs_(st, score + crtc_score, replaced, crtc_index + 1)) {
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has_best = true;
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}
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}
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if (st->exit_early) {
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return true;
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}
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if (st->orig[crtc_index] != UNMATCHED) {
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++replaced;
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}
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for (size_t candidate = 0; candidate < st->num_conns; ++candidate) {
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// We tried this earlier
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if (candidate == st->orig[crtc_index]) {
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continue;
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}
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// Not compatible
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if (!(st->conns[candidate] & (1 << crtc_index))) {
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continue;
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}
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// Already taken
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if (is_taken(crtc_index, st->res, candidate)) {
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continue;
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}
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st->res[crtc_index] = candidate;
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size_t crtc_score = st->conns[candidate] != 0 ? 1 : 0;
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if (match_connectors_with_crtcs_(st, score + crtc_score, replaced, crtc_index + 1)) {
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has_best = true;
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}
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if (st->exit_early) {
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return true;
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}
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}
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// Maybe this CRTC can't be matched
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st->res[crtc_index] = UNMATCHED;
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if (match_connectors_with_crtcs_(st, score, replaced, crtc_index + 1)) {
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has_best = true;
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}
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return has_best;
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}
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void match_connectors_with_crtcs(size_t num_conns,
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const uint32_t conns[static restrict num_conns],
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size_t num_crtcs, const uint32_t prev_crtcs[static restrict num_crtcs],
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uint32_t new_crtcs[static restrict num_crtcs]) {
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uint32_t solution[num_crtcs];
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for (size_t i = 0; i < num_crtcs; ++i) {
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solution[i] = UNMATCHED;
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}
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struct match_state st = {
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.num_conns = num_conns,
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.num_crtcs = num_crtcs,
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.score = 0,
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.replaced = SIZE_MAX,
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.conns = conns,
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.res = solution,
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.best = new_crtcs,
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.orig = prev_crtcs,
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.exit_early = false,
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};
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match_connectors_with_crtcs_(&st, 0, 0, 0);
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}
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void generate_cvt_mode(drmModeModeInfo *mode, int hdisplay, int vdisplay,
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float vrefresh) {
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// TODO: depending on capabilities advertised in the EDID, use reduced
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// blanking if possible (and update sync polarity)
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struct di_cvt_options options = {
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.red_blank_ver = DI_CVT_REDUCED_BLANKING_NONE,
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.h_pixels = hdisplay,
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.v_lines = vdisplay,
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.ip_freq_rqd = vrefresh ? vrefresh : 60,
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};
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struct di_cvt_timing timing;
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di_cvt_compute(&timing, &options);
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uint16_t hsync_start = hdisplay + timing.h_front_porch;
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uint16_t vsync_start = timing.v_lines_rnd + timing.v_front_porch;
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uint16_t hsync_end = hsync_start + timing.h_sync;
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uint16_t vsync_end = vsync_start + timing.v_sync;
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*mode = (drmModeModeInfo){
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.clock = roundf(timing.act_pixel_freq * 1000),
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.hdisplay = hdisplay,
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.vdisplay = timing.v_lines_rnd,
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.hsync_start = hsync_start,
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.vsync_start = vsync_start,
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.hsync_end = hsync_end,
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.vsync_end = vsync_end,
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.htotal = hsync_end + timing.h_back_porch,
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.vtotal = vsync_end + timing.v_back_porch,
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.vrefresh = roundf(timing.act_frame_rate),
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.flags = DRM_MODE_FLAG_NHSYNC | DRM_MODE_FLAG_PVSYNC,
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};
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snprintf(mode->name, sizeof(mode->name), "%dx%d", hdisplay, vdisplay);
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}
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