/* RetroArch - A frontend for libretro. * Copyright (C) 2014-2018 - Jean-André Santoni * Copyright (C) 2011-2018 - Daniel De Matteis * * RetroArch is free software: you can redistribute it and/or modify it under the terms * of the GNU General Public License as published by the Free Software Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR * PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with RetroArch. * If not, see . */ #include #include #include #include #include #include #include #include #include #include #include "gfx_animation.h" #include "../performance_counters.h" #define TICKER_SPEED 333333 #define TICKER_SLOW_SPEED 1666666 /* Pixel ticker nominally increases by one after each * TICKER_PIXEL_PERIOD ms (actual increase depends upon * ticker speed setting and display resolution) * * Formula is: (1.0f / 60.0f) * 1000.0f * */ #define TICKER_PIXEL_PERIOD (16.666666666666668f) /* Mean human reading speed for all western languages, * characters per minute */ #define TICKER_CPM 1000.0f /* Base time for which a line should be shown, in us */ #define TICKER_LINE_DURATION_US(line_len) ((line_len * 60.0f * 1000.0f * 1000.0f) / TICKER_CPM) /* Base time for which a line should be shown, in ms */ #define TICKER_LINE_DURATION_MS(line_len) ((line_len * 60.0f * 1000.0f) / TICKER_CPM) /* Ticker updates (nominally) once every TICKER_SPEED us * > Base number of ticks for which line should be shown */ #define TICKER_LINE_DISPLAY_TICKS(line_len) ((size_t)(TICKER_LINE_DURATION_US(line_len) / (float)TICKER_SPEED)) /* Smooth ticker updates (nominally) once every TICKER_PIXEL_PERIOD ms * > Base number of ticks for which text should scroll * from one line to the next */ #define TICKER_LINE_SMOOTH_SCROLL_TICKS(line_len) ((size_t)(TICKER_LINE_DURATION_MS(line_len) / TICKER_PIXEL_PERIOD)) static gfx_animation_t anim_st = { 0, /* ticker_idx */ 0, /* ticker_slow_idx */ 0, /* ticker_pixel_idx */ 0, /* ticker_pixel_line_idx */ 0, /* cur_time */ 0, /* old_time */ NULL, /* updatetime_cb */ NULL, /* list */ NULL, /* pending */ 0.0f, /* delta_time */ false, /* pending_deletes */ false, /* in_update */ false, /* animation_is_active */ false /* ticker_is_active */ }; gfx_animation_t *anim_get_ptr(void) { return &anim_st; } /* from https://github.com/kikito/tween.lua/blob/master/tween.lua */ static float easing_linear(float t, float b, float c, float d) { return c * t / d + b; } static float easing_in_out_quad(float t, float b, float c, float d) { t = t / d * 2.0f; if (t < 1.0f) return c / 2.0f * t * t + b; return -c / 2.0f * ((t - 1.0f) * (t - 3.0f) - 1.0f) + b; } static float easing_in_quad(float t, float b, float c, float d) { float base = t / d; return c * (base * base) + b; } static float easing_out_quad(float t, float b, float c, float d) { t = t / d; return -c * t * (t - 2.0f) + b; } static float easing_out_in_quad(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_quad(t * 2.0f, b, c / 2.0f, d); return easing_in_quad((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static float easing_in_cubic(float t, float b, float c, float d) { float base = t / d; return c * (base * base * base) + b; } static float easing_out_cubic(float t, float b, float c, float d) { float base = t / d - 1.0f; return c * ((base * base * base) + 1.0f) + b; } static float easing_in_out_cubic(float t, float b, float c, float d) { t = t / d * 2.0f; if (t < 1.0f) return c / 2.0f * t * t * t + b; t = t - 2.0f; return c / 2.0f * (t * t * t + 2.0f) + b; } static float easing_out_in_cubic(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_cubic(t * 2.0f, b, c / 2.0f, d); return easing_in_cubic((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static float easing_in_quart(float t, float b, float c, float d) { float base = t / d; return c * (base * base * base * base) + b; } static float easing_out_quart(float t, float b, float c, float d) { float base = t / d - 1.0f; return -c * ((base * base * base * base) - 1.0f) + b; } static float easing_in_out_quart(float t, float b, float c, float d) { float base; t = t / d * 2.0f; if (t < 1.0f) return c / 2.0f * (t * t * t * t) + b; base = t - 2.0f; return -c / 2.0f * ((base * base * base * base) - 2.0f) + b; } static float easing_out_in_quart(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_quart(t * 2.0f, b, c / 2.0f, d); return easing_in_quart((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static float easing_in_quint(float t, float b, float c, float d) { float base = t / d; return c * (base * base * base * base * base) + b; } static float easing_out_quint(float t, float b, float c, float d) { float base = t / d - 1.0f; return c * ((base * base * base * base * base) + 1.0f) + b; } static float easing_in_out_quint(float t, float b, float c, float d) { float base; t = t / d * 2.0f; if (t < 1.0f) return c / 2.0f * (t * t * t * t * t) + b; base = t - 2.0f; return c / 2.0f * ((base * base * base * base * base) + 2.0f) + b; } static float easing_out_in_quint(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_quint(t * 2.0f, b, c / 2.0f, d); return easing_in_quint((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static float easing_in_sine(float t, float b, float c, float d) { return -c * cos(t / d * (M_PI / 2.0f)) + c + b; } static float easing_out_sine(float t, float b, float c, float d) { return c * sin(t / d * (M_PI / 2.0f)) + b; } static float easing_in_out_sine(float t, float b, float c, float d) { return -c / 2.0f * (cos(M_PI * t / d) - 1.0f) + b; } static float easing_out_in_sine(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_sine(t * 2.0f, b, c / 2.0f, d); return easing_in_sine((t * 2.0f) -d, b + c / 2.0f, c / 2.0f, d); } static float easing_in_expo(float t, float b, float c, float d) { if (t == 0.0f) return b; return c * powf(2, 10 * (t / d - 1)) + b - c * 0.001; } static float easing_out_expo(float t, float b, float c, float d) { if (t == d) return b + c; return c * 1.001 * (-powf(2, -10 * t / d) + 1) + b; } static float easing_in_out_expo(float t, float b, float c, float d) { if (t == 0) return b; if (t == d) return b + c; t = t / d * 2.0f; if (t < 1.0f) return c / 2.0f * powf(2, 10 * (t - 1)) + b - c * 0.0005; return c / 2.0f * 1.0005 * (-powf(2, -10 * (t - 1)) + 2) + b; } static float easing_out_in_expo(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_expo(t * 2.0f, b, c / 2.0f, d); return easing_in_expo((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static float easing_in_circ(float t, float b, float c, float d) { float base = t / d; return(-c * (sqrtf(1.0f - (base * base)) - 1.0f) + b); } static float easing_out_circ(float t, float b, float c, float d) { float base = t / d - 1; return(c * sqrtf(1.0f - (base * base)) + b); } static float easing_in_out_circ(float t, float b, float c, float d) { t = t / d * 2.0f; if (t < 1.0f) return -c / 2 * (sqrtf(1.0f - t * t) - 1.0f) + b; t = t - 2.0f; return c / 2.0f * (sqrtf(1.0f - t * t) + 1.0f) + b; } static float easing_out_in_circ(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_circ(t * 2.0f, b, c / 2.0f, d); return easing_in_circ((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static float easing_out_bounce(float t, float b, float c, float d) { t = t / d; if (t < 1 / 2.75f) return c * (7.5625f * t * t) + b; if (t < 2 / 2.75f) { t = t - (1.5f / 2.75f); return c * (7.5625f * t * t + 0.75f) + b; } else if (t < 2.5f / 2.75f) { t = t - (2.25f / 2.75f); return c * (7.5625f * t * t + 0.9375f) + b; } t = t - (2.625f / 2.75f); return c * (7.5625f * t * t + 0.984375f) + b; } static float easing_in_bounce(float t, float b, float c, float d) { return c - easing_out_bounce(d - t, 0, c, d) + b; } static float easing_in_out_bounce(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_in_bounce(t * 2.0f, 0.0f, c, d) * 0.5f + b; return easing_out_bounce(t * 2.0f - d, 0.0f, c, d) * 0.5f + c * .5f + b; } static float easing_out_in_bounce(float t, float b, float c, float d) { if (t < d / 2.0f) return easing_out_bounce(t * 2.0f, b, c / 2.0f, d); return easing_in_bounce((t * 2.0f) - d, b + c / 2.0f, c / 2.0f, d); } static size_t gfx_animation_ticker_generic(uint64_t idx, size_t old_width) { const int phase_left_stop = 2; int ticker_period = (int)(2 * old_width + 4); int phase = idx % ticker_period; int phase_left_moving = (int)(phase_left_stop + old_width); int phase_right_stop = phase_left_moving + 2; if (phase < phase_left_stop) return 0; else if (phase < phase_left_moving) /* left offset? */ return phase - phase_left_stop; else if (phase < phase_right_stop) return old_width; /* right offset */ return (int)(old_width - (phase - phase_right_stop)); } static void gfx_animation_ticker_loop(uint64_t idx, size_t max_width, size_t str_width, size_t spacer_width, size_t *offset1, size_t *width1, size_t *offset2, size_t *width2, size_t *offset3, size_t *width3) { int ticker_period = (int)(str_width + spacer_width); int phase = idx % ticker_period; /* Output offsets/widths are unsigned size_t, but it's * easier to perform the required calculations with ints, * so create some temporary variables... */ /* Looping text is composed of up to three strings, * where string 1 and 2 are different regions of the * source text and string 2 is a spacer: * * |-----max_width-----| * [string 1][string 2][string 3] * * The following implementation could probably be optimised, * but any performance gains would be trivial compared with * all the string manipulation that has to happen afterwards... */ /* String 1 */ int offset = 0; int width = (int)(str_width - phase); if (width < 0) width = 0; else if ((width > (int)max_width)) width = (int)max_width; if (phase < (int)str_width) offset = phase; *offset1 = offset; *width1 = width; /* String 2 */ offset = (int)(phase - str_width); if (offset < 0) offset = 0; width = (int)(max_width - *width1); if (width > (int)spacer_width) width = (int)spacer_width; width -= offset; *offset2 = offset; *width2 = width; /* String 3 */ width = (int)(max_width - (*width1 + *width2)); if (width < 0) width = 0; /* Note: offset is always zero here so offset3 is * unnecessary - but include it anyway to preserve * symmetry... */ *offset3 = 0; *width3 = width; } static unsigned get_ticker_smooth_generic_scroll_offset( uint64_t idx, unsigned str_width, unsigned field_width) { const unsigned pause_duration = 32; unsigned scroll_width = str_width - field_width; unsigned ticker_period = 2 * (scroll_width + pause_duration); unsigned phase = idx % ticker_period; /* Determine scroll offset */ if (phase < pause_duration) return 0; else if (phase < ticker_period >> 1) return (phase - pause_duration); else if (phase < (ticker_period >> 1) + pause_duration) return ((ticker_period - (2 * pause_duration)) >> 1); return (ticker_period - phase); } /* 'Fixed width' font version of ticker_smooth_scan_characters() */ static void ticker_smooth_scan_string_fw( size_t num_chars, unsigned glyph_width, unsigned field_width, unsigned scroll_offset, unsigned *char_offset, unsigned *num_chars_to_copy, unsigned *x_offset) { /* Initialise output variables to 'sane' values */ *num_chars_to_copy = 0; /* Determine index of first character to copy */ if (scroll_offset > 0) { *char_offset = (scroll_offset / glyph_width) + 1; *x_offset = glyph_width - (scroll_offset % glyph_width); } else { *char_offset = 0; *x_offset = 0; } /* Determine number of characters remaining in * string once offset has been subtracted */ if (*char_offset < num_chars) { size_t chars_remaining = num_chars - *char_offset; /* Determine number of characters to copy */ if ((chars_remaining > 0) && (field_width > *x_offset)) { *num_chars_to_copy = (field_width - *x_offset) / glyph_width; if (*num_chars_to_copy > chars_remaining) *num_chars_to_copy = (unsigned)chars_remaining; } } } /* 'Fixed width' font version of gfx_animation_ticker_smooth_generic() */ static void gfx_animation_ticker_smooth_generic_fw(uint64_t idx, unsigned str_width, size_t num_chars, unsigned glyph_width, unsigned field_width, unsigned *char_offset, unsigned *num_chars_to_copy, unsigned *x_offset) { /* Initialise output variables to 'sane' values */ *char_offset = 0; *num_chars_to_copy = 0; *x_offset = 0; /* Sanity check */ if (num_chars >= 1) { unsigned scroll_offset = get_ticker_smooth_generic_scroll_offset( idx, str_width, field_width); ticker_smooth_scan_string_fw( num_chars, glyph_width, field_width, scroll_offset, char_offset, num_chars_to_copy, x_offset); } } /* 'Fixed width' font version of gfx_animation_ticker_smooth_loop() */ static void gfx_animation_ticker_smooth_loop_fw(uint64_t idx, unsigned str_width, size_t num_chars, unsigned spacer_width, size_t num_spacer_chars, unsigned glyph_width, unsigned field_width, unsigned *char_offset1, unsigned *num_chars_to_copy1, unsigned *char_offset2, unsigned *num_chars_to_copy2, unsigned *char_offset3, unsigned *num_chars_to_copy3, unsigned *x_offset) { unsigned ticker_period = str_width + spacer_width; unsigned phase = idx % ticker_period; unsigned remaining_width = field_width; /* Initialise output variables to 'sane' values */ *char_offset1 = 0; *num_chars_to_copy1 = 0; *char_offset2 = 0; *num_chars_to_copy2 = 0; *char_offset3 = 0; *num_chars_to_copy3 = 0; *x_offset = 0; /* Sanity check */ if ((num_chars < 1) || (num_spacer_chars < 1)) return; /* Looping text is composed of up to three strings, * where string 1 and 2 are different regions of the * source text and string 2 is a spacer: * * |----field_width----| * [string 1][string 2][string 3] */ /* String 1 */ if (phase < str_width) { unsigned scroll_offset = phase; ticker_smooth_scan_string_fw( num_chars, glyph_width, remaining_width, scroll_offset, char_offset1, num_chars_to_copy1, x_offset); /* Update remaining width * Note: We can avoid all the display_width shenanigans * here (c.f. gfx_animation_ticker_smooth_loop()) because * the font width is constant - i.e. we don't have to wrangle * out the width of the last 'non-copied' character since it * is known a priori, so we can just subtract the string width * + offset here, and perform an 'if (remaining_width > glyph_width)' * for strings 2 and 3 */ remaining_width -= (*x_offset + (*num_chars_to_copy1 * glyph_width)); } /* String 2 */ if (remaining_width > glyph_width) { unsigned scroll_offset = 0; unsigned x_offset2 = 0; /* Check whether we've passed the end of string 1 */ if (phase > str_width) scroll_offset = phase - str_width; ticker_smooth_scan_string_fw( num_spacer_chars, glyph_width, remaining_width, scroll_offset, char_offset2, num_chars_to_copy2, &x_offset2); /* > Update remaining width */ remaining_width -= (x_offset2 + (*num_chars_to_copy2 * glyph_width)); /* If scroll_offset is greater than zero, it means * string 2 is the first string to be displayed * > ticker x offset is therefore string 2's offset */ if (scroll_offset > 0) *x_offset = x_offset2; } /* String 3 */ if (remaining_width > glyph_width) { /* String 3 is only shown when string 2 is shown, * so we can take some shortcuts... */ *char_offset3 = 0; /* Determine number of characters to copy */ *num_chars_to_copy3 = remaining_width / glyph_width; if (*num_chars_to_copy3 > num_chars) *num_chars_to_copy3 = (unsigned)num_chars; } } static void ticker_smooth_scan_characters( const unsigned *char_widths, size_t num_chars, unsigned field_width, unsigned scroll_offset, unsigned *char_offset, unsigned *num_chars_to_copy, unsigned *x_offset, unsigned *str_width, unsigned *display_width) { unsigned i; unsigned text_width = 0; unsigned scroll_pos = scroll_offset; bool deferred_str_width = true; /* Initialise output variables to 'sane' values */ *char_offset = 0; *num_chars_to_copy = 0; *x_offset = 0; if (str_width) *str_width = 0; if (display_width) *display_width = 0; /* Determine index of first character to copy */ if (scroll_pos > 0) { for (i = 0; i < num_chars; i++) { if (scroll_pos > char_widths[i]) scroll_pos -= char_widths[i]; else { /* Note: It's okay for char_offset to go out * of range here (num_chars_to_copy will be zero * in this case) */ *char_offset = i + 1; *x_offset = char_widths[i] - scroll_pos; break; } } } /* Determine number of characters to copy */ for (i = *char_offset; i < num_chars; i++) { text_width += char_widths[i]; if (*x_offset + text_width <= field_width) (*num_chars_to_copy)++; else { /* Get actual width of resultant string * (excluding x offset + end padding) * Note that this is only set if we exceed the * field width - if all characters up to the end * of the string are copied... */ if (str_width) { deferred_str_width = false; *str_width = text_width - char_widths[i]; } break; } } /* ...then we have to update str_width here instead */ if (str_width) if (deferred_str_width) *str_width = text_width; /* Get total display width of resultant string * (x offset + text width + end padding) */ if (display_width) { *display_width = *x_offset + text_width; if (*display_width > field_width) *display_width = field_width; } } static void gfx_animation_ticker_smooth_generic(uint64_t idx, const unsigned *char_widths, size_t num_chars, unsigned str_width, unsigned field_width, unsigned *char_offset, unsigned *num_chars_to_copy, unsigned *x_offset, unsigned *dst_str_width) { /* Initialise output variables to 'sane' values */ *char_offset = 0; *num_chars_to_copy = 0; *x_offset = 0; if (dst_str_width) *dst_str_width = 0; /* Sanity check */ if (num_chars >= 1) { unsigned scroll_offset = get_ticker_smooth_generic_scroll_offset( idx, str_width, field_width); ticker_smooth_scan_characters( char_widths, num_chars, field_width, scroll_offset, char_offset, num_chars_to_copy, x_offset, dst_str_width, NULL); } } static void gfx_animation_ticker_smooth_loop(uint64_t idx, const unsigned *char_widths, size_t num_chars, const unsigned *spacer_widths, size_t num_spacer_chars, unsigned str_width, unsigned spacer_width, unsigned field_width, unsigned *char_offset1, unsigned *num_chars_to_copy1, unsigned *char_offset2, unsigned *num_chars_to_copy2, unsigned *char_offset3, unsigned *num_chars_to_copy3, unsigned *x_offset, unsigned *dst_str_width) { unsigned ticker_period = str_width + spacer_width; unsigned phase = idx % ticker_period; unsigned remaining_width = field_width; /* Initialise output variables to 'sane' values */ *char_offset1 = 0; *num_chars_to_copy1 = 0; *char_offset2 = 0; *num_chars_to_copy2 = 0; *char_offset3 = 0; *num_chars_to_copy3 = 0; *x_offset = 0; if (dst_str_width) *dst_str_width = 0; /* Sanity check */ if ((num_chars < 1) || (num_spacer_chars < 1)) return; /* Looping text is composed of up to three strings, * where string 1 and 2 are different regions of the * source text and string 2 is a spacer: * * |----field_width----| * [string 1][string 2][string 3] */ /* String 1 */ if (phase < str_width) { unsigned scroll_offset = phase; unsigned display_width = 0; unsigned str1_width = 0; ticker_smooth_scan_characters( char_widths, num_chars, remaining_width, scroll_offset, char_offset1, num_chars_to_copy1, x_offset, &str1_width, &display_width); /* Update remaining width */ remaining_width -= display_width; /* Update dst_str_width */ if (dst_str_width) *dst_str_width += str1_width; } /* String 2 */ if (remaining_width > 0) { unsigned scroll_offset = 0; unsigned display_width = 0; unsigned str2_width = 0; unsigned x_offset2 = 0; /* Check whether we've passed the end of string 1 */ if (phase > str_width) scroll_offset = phase - str_width; ticker_smooth_scan_characters( spacer_widths, num_spacer_chars, remaining_width, scroll_offset, char_offset2, num_chars_to_copy2, &x_offset2, &str2_width, &display_width); /* > Update remaining width */ remaining_width -= display_width; /* Update dst_str_width */ if (dst_str_width) *dst_str_width += str2_width; /* If scroll_offset is greater than zero, it means * string 2 is the first string to be displayed * > ticker x offset is therefore string 2's offset */ if (scroll_offset > 0) *x_offset = x_offset2; } /* String 3 */ if (remaining_width > 0) { /* String 3 is only shown when string 2 is shown, * so we can take some shortcuts... */ unsigned i; unsigned text_width = 0; *char_offset3 = 0; /* Determine number of characters to copy */ for (i = 0; i < num_chars; i++) { text_width += char_widths[i]; if (text_width <= remaining_width) (*num_chars_to_copy3)++; else { /* Update dst_str_width */ if (dst_str_width) *dst_str_width += text_width - char_widths[i]; break; } } } } static size_t gfx_animation_line_ticker_generic(uint64_t idx, size_t line_len, size_t max_lines, size_t num_lines) { size_t line_ticks = TICKER_LINE_DISPLAY_TICKS(line_len); /* Note: This function is only called if num_lines > max_lines */ size_t excess_lines = num_lines - max_lines; /* Ticker will pause for one line duration when the first * or last line is reached (this is mostly required for the * case where num_lines == (max_lines + 1), since otherwise * the text flicks rapidly up and down in disconcerting * fashion...) */ size_t ticker_period = (excess_lines * 2) + 2; size_t phase = (idx / line_ticks) % ticker_period; /* Pause on first line */ if (phase > 0) phase--; /* Pause on last line */ if (phase > excess_lines) phase--; /* Lines scrolling upwards */ if (phase <= excess_lines) return phase; /* Lines scrolling downwards */ return (excess_lines * 2) - phase; } static size_t gfx_animation_line_ticker_loop(uint64_t idx, size_t line_len, size_t num_lines) { size_t line_ticks = TICKER_LINE_DISPLAY_TICKS(line_len); size_t ticker_period = num_lines + 1; size_t phase = (idx / line_ticks) % ticker_period; /* In this case, line_offset is simply equal to the phase */ return phase; } static void set_line_smooth_fade_parameters( bool scroll_up, size_t scroll_ticks, size_t line_phase, size_t line_height, size_t num_lines, size_t num_display_lines, size_t line_offset, float y_offset, size_t *top_fade_line_offset, float *top_fade_y_offset, float *top_fade_alpha, size_t *bottom_fade_line_offset, float *bottom_fade_y_offset, float *bottom_fade_alpha) { /* When a line fades out, alpha transitions from * 1 to 0 over the course of one half of the * scrolling line height. When a line fades in, * it's the other way around */ float fade_out_alpha = ((float)scroll_ticks - ((float)line_phase * 2.0f)) / (float)scroll_ticks; float fade_in_alpha = -1.0f * fade_out_alpha; if (fade_out_alpha < 0.0f) fade_out_alpha = 0.0f; if (fade_in_alpha < 0.0f) fade_in_alpha = 0.0f; *top_fade_line_offset = (line_offset > 0) ? line_offset - 1 : num_lines; *top_fade_y_offset = y_offset - (float)line_height; if (scroll_up) { *top_fade_alpha = fade_out_alpha; *bottom_fade_alpha = fade_in_alpha; } else { *top_fade_alpha = fade_in_alpha; *bottom_fade_alpha = fade_out_alpha; } *bottom_fade_line_offset = line_offset + num_display_lines; *bottom_fade_y_offset = y_offset + (float)(line_height * num_display_lines); } static void set_line_smooth_fade_parameters_default( size_t *top_fade_line_offset, float *top_fade_y_offset, float *top_fade_alpha, size_t *bottom_fade_line_offset, float *bottom_fade_y_offset, float *bottom_fade_alpha) { *top_fade_line_offset = 0; *top_fade_y_offset = 0.0f; *top_fade_alpha = 0.0f; *bottom_fade_line_offset = 0; *bottom_fade_y_offset = 0.0f; *bottom_fade_alpha = 0.0f; } static void gfx_animation_line_ticker_smooth_generic(uint64_t idx, bool fade_enabled, size_t line_len, size_t line_height, size_t max_display_lines, size_t num_lines, size_t *num_display_lines, size_t *line_offset, float *y_offset, bool *fade_active, size_t *top_fade_line_offset, float *top_fade_y_offset, float *top_fade_alpha, size_t *bottom_fade_line_offset, float *bottom_fade_y_offset, float *bottom_fade_alpha) { size_t scroll_ticks = TICKER_LINE_SMOOTH_SCROLL_TICKS(line_len); /* Note: This function is only called if num_lines > max_display_lines */ size_t excess_lines = num_lines - max_display_lines; /* Ticker will pause for one line duration when the first * or last line is reached */ size_t ticker_period = ((excess_lines * 2) + 2) * scroll_ticks; size_t phase = idx % ticker_period; size_t line_phase = 0; bool pause = false; bool scroll_up = true; if (phase >= scroll_ticks) phase -= scroll_ticks; else { /* Pause on first line */ pause = true; phase = 0; } /* Pause on last line and change direction */ if (phase >= excess_lines * scroll_ticks) { scroll_up = false; if (phase < (excess_lines + 1) * scroll_ticks) { pause = true; phase = 0; } else phase -= (excess_lines + 1) * scroll_ticks; } line_phase = phase % scroll_ticks; if (pause) { /* Static display of max_display_lines * (no animation) */ *num_display_lines = max_display_lines; *y_offset = 0.0f; *fade_active = false; *line_offset = scroll_up ? 0 : excess_lines; } else if (line_phase == 0) { /* Static display of max_display_lines * (no animation) */ *num_display_lines = max_display_lines; *y_offset = 0.0f; *fade_active = false; *line_offset = scroll_up ? (phase / scroll_ticks) : (excess_lines - (phase / scroll_ticks)); } else { /* Scroll animation is active */ *num_display_lines = max_display_lines - 1; *fade_active = fade_enabled; if (scroll_up) { *line_offset = (phase / scroll_ticks) + 1; *y_offset = (float)line_height * (float)(scroll_ticks - line_phase) / (float)scroll_ticks; } else { *line_offset = excess_lines - (phase / scroll_ticks); *y_offset = (float)line_height * (1.0f - (float)(scroll_ticks - line_phase) / (float)scroll_ticks); } /* Set fade parameters if fade animation is active */ if (*fade_active) set_line_smooth_fade_parameters( scroll_up, scroll_ticks, line_phase, line_height, num_lines, *num_display_lines, *line_offset, *y_offset, top_fade_line_offset, top_fade_y_offset, top_fade_alpha, bottom_fade_line_offset, bottom_fade_y_offset, bottom_fade_alpha); } /* Set 'default' fade parameters if fade animation * is inactive */ if (!*fade_active) set_line_smooth_fade_parameters_default( top_fade_line_offset, top_fade_y_offset, top_fade_alpha, bottom_fade_line_offset, bottom_fade_y_offset, bottom_fade_alpha); } static void gfx_animation_line_ticker_smooth_loop(uint64_t idx, bool fade_enabled, size_t line_len, size_t line_height, size_t max_display_lines, size_t num_lines, size_t *num_display_lines, size_t *line_offset, float *y_offset, bool *fade_active, size_t *top_fade_line_offset, float *top_fade_y_offset, float *top_fade_alpha, size_t *bottom_fade_line_offset, float *bottom_fade_y_offset, float *bottom_fade_alpha) { size_t scroll_ticks = TICKER_LINE_SMOOTH_SCROLL_TICKS(line_len); size_t ticker_period = (num_lines + 1) * scroll_ticks; size_t phase = idx % ticker_period; size_t line_phase = phase % scroll_ticks; *line_offset = phase / scroll_ticks; if (line_phase == (scroll_ticks - 1)) { /* Static display of max_display_lines * (no animation) */ *num_display_lines = max_display_lines; *fade_active = false; } else { *num_display_lines = max_display_lines - 1; *fade_active = fade_enabled; } *y_offset = (float)line_height * (float)(scroll_ticks - line_phase) / (float)scroll_ticks; /* Set fade parameters */ if (*fade_active) set_line_smooth_fade_parameters( true, scroll_ticks, line_phase, line_height, num_lines, *num_display_lines, *line_offset, *y_offset, top_fade_line_offset, top_fade_y_offset, top_fade_alpha, bottom_fade_line_offset, bottom_fade_y_offset, bottom_fade_alpha); else set_line_smooth_fade_parameters_default( top_fade_line_offset, top_fade_y_offset, top_fade_alpha, bottom_fade_line_offset, bottom_fade_y_offset, bottom_fade_alpha); } static void gfx_delayed_animation_cb(void *userdata) { gfx_delayed_animation_t *delayed_animation = (gfx_delayed_animation_t*) userdata; gfx_animation_push(&delayed_animation->entry); free(delayed_animation); } void gfx_animation_push_delayed( unsigned delay, gfx_animation_ctx_entry_t *entry) { gfx_timer_ctx_entry_t timer_entry; gfx_delayed_animation_t *delayed_animation = (gfx_delayed_animation_t*) malloc(sizeof(gfx_delayed_animation_t)); memcpy(&delayed_animation->entry, entry, sizeof(gfx_animation_ctx_entry_t)); timer_entry.cb = gfx_delayed_animation_cb; timer_entry.duration = delay; timer_entry.userdata = delayed_animation; gfx_animation_timer_start(&delayed_animation->timer, &timer_entry); } bool gfx_animation_push(gfx_animation_ctx_entry_t *entry) { struct tween t; gfx_animation_t *p_anim = &anim_st; t.duration = entry->duration; t.running_since = 0; t.initial_value = *entry->subject; t.target_value = entry->target_value; t.subject = entry->subject; t.tag = entry->tag; t.cb = entry->cb; t.userdata = entry->userdata; t.easing = NULL; t.deleted = false; switch (entry->easing_enum) { case EASING_LINEAR: t.easing = &easing_linear; break; /* Quad */ case EASING_IN_QUAD: t.easing = &easing_in_quad; break; case EASING_OUT_QUAD: t.easing = &easing_out_quad; break; case EASING_IN_OUT_QUAD: t.easing = &easing_in_out_quad; break; case EASING_OUT_IN_QUAD: t.easing = &easing_out_in_quad; break; /* Cubic */ case EASING_IN_CUBIC: t.easing = &easing_in_cubic; break; case EASING_OUT_CUBIC: t.easing = &easing_out_cubic; break; case EASING_IN_OUT_CUBIC: t.easing = &easing_in_out_cubic; break; case EASING_OUT_IN_CUBIC: t.easing = &easing_out_in_cubic; break; /* Quart */ case EASING_IN_QUART: t.easing = &easing_in_quart; break; case EASING_OUT_QUART: t.easing = &easing_out_quart; break; case EASING_IN_OUT_QUART: t.easing = &easing_in_out_quart; break; case EASING_OUT_IN_QUART: t.easing = &easing_out_in_quart; break; /* Quint */ case EASING_IN_QUINT: t.easing = &easing_in_quint; break; case EASING_OUT_QUINT: t.easing = &easing_out_quint; break; case EASING_IN_OUT_QUINT: t.easing = &easing_in_out_quint; break; case EASING_OUT_IN_QUINT: t.easing = &easing_out_in_quint; break; /* Sine */ case EASING_IN_SINE: t.easing = &easing_in_sine; break; case EASING_OUT_SINE: t.easing = &easing_out_sine; break; case EASING_IN_OUT_SINE: t.easing = &easing_in_out_sine; break; case EASING_OUT_IN_SINE: t.easing = &easing_out_in_sine; break; /* Expo */ case EASING_IN_EXPO: t.easing = &easing_in_expo; break; case EASING_OUT_EXPO: t.easing = &easing_out_expo; break; case EASING_IN_OUT_EXPO: t.easing = &easing_in_out_expo; break; case EASING_OUT_IN_EXPO: t.easing = &easing_out_in_expo; break; /* Circ */ case EASING_IN_CIRC: t.easing = &easing_in_circ; break; case EASING_OUT_CIRC: t.easing = &easing_out_circ; break; case EASING_IN_OUT_CIRC: t.easing = &easing_in_out_circ; break; case EASING_OUT_IN_CIRC: t.easing = &easing_out_in_circ; break; /* Bounce */ case EASING_IN_BOUNCE: t.easing = &easing_in_bounce; break; case EASING_OUT_BOUNCE: t.easing = &easing_out_bounce; break; case EASING_IN_OUT_BOUNCE: t.easing = &easing_in_out_bounce; break; case EASING_OUT_IN_BOUNCE: t.easing = &easing_out_in_bounce; break; default: break; } /* ignore born dead tweens */ if (!t.easing || t.duration == 0 || t.initial_value == t.target_value) return false; if (p_anim->in_update) RBUF_PUSH(p_anim->pending, t); else RBUF_PUSH(p_anim->list, t); return true; } bool gfx_animation_update( retro_time_t current_time, bool timedate_enable, float _ticker_speed, unsigned video_width, unsigned video_height) { unsigned i; gfx_animation_t *p_anim = &anim_st; const bool ticker_is_active = p_anim->ticker_is_active; static retro_time_t last_clock_update = 0; static retro_time_t last_ticker_update = 0; static retro_time_t last_ticker_slow_update = 0; /* Horizontal smooth ticker parameters */ static float ticker_pixel_accumulator = 0.0f; unsigned ticker_pixel_accumulator_uint = 0; float ticker_pixel_increment = 0.0f; /* Vertical (line) smooth ticker parameters */ static float ticker_pixel_line_accumulator = 0.0f; unsigned ticker_pixel_line_accumulator_uint = 0; float ticker_pixel_line_increment = 0.0f; /* Adjust ticker speed */ float speed_factor = (_ticker_speed > 0.0001f) ? _ticker_speed : 1.0f; unsigned ticker_speed = (unsigned)(((float)TICKER_SPEED / speed_factor) + 0.5); unsigned ticker_slow_speed = (unsigned)(((float)TICKER_SLOW_SPEED / speed_factor) + 0.5); /* Note: cur_time & old_time are in us (microseconds), * delta_time is in ms */ p_anim->cur_time = current_time; p_anim->delta_time = (p_anim->old_time == 0) ? 0.0f : (float)(p_anim->cur_time - p_anim->old_time) / 1000.0f; p_anim->old_time = p_anim->cur_time; if (((p_anim->cur_time - last_clock_update) > 1000000) /* 1000000 us == 1 second */ && timedate_enable) { p_anim->animation_is_active = true; last_clock_update = p_anim->cur_time; } if (ticker_is_active) { /* Update non-smooth ticker indices */ if (p_anim->cur_time - last_ticker_update >= ticker_speed) { p_anim->ticker_idx++; last_ticker_update = p_anim->cur_time; } if (p_anim->cur_time - last_ticker_slow_update >= ticker_slow_speed) { p_anim->ticker_slow_idx++; last_ticker_slow_update = p_anim->cur_time; } /* Pixel tickers (horizontal + vertical/line) update * every frame (regardless of time delta), so require * special handling */ /* > Get base increment size (+1 every TICKER_PIXEL_PERIOD ms) */ ticker_pixel_increment = p_anim->delta_time / TICKER_PIXEL_PERIOD; /* > Apply ticker speed adjustment */ ticker_pixel_increment *= speed_factor; /* At this point we diverge: * > Vertical (line) ticker is based upon text * characteristics (number of characters per * line) - it is therefore independent of display * size/scaling, so speed-adjusted pixel increment * is used directly */ ticker_pixel_line_increment = ticker_pixel_increment; /* > Horizontal ticker is based upon physical line * width - it is therefore very much dependent upon * display size/scaling. Each menu driver is free * to handle video scaling as it pleases - a callback * function set by the menu driver is thus used to * perform menu-specific scaling adjustments */ if (p_anim->updatetime_cb) p_anim->updatetime_cb(&ticker_pixel_increment, video_width, video_height); /* > Update accumulators */ ticker_pixel_accumulator += ticker_pixel_increment; ticker_pixel_accumulator_uint = (unsigned)ticker_pixel_accumulator; ticker_pixel_line_accumulator += ticker_pixel_line_increment; ticker_pixel_line_accumulator_uint = (unsigned)ticker_pixel_line_accumulator; /* > Check whether we've accumulated enough * for an idx update */ if (ticker_pixel_accumulator_uint > 0) { p_anim->ticker_pixel_idx += ticker_pixel_accumulator_uint; ticker_pixel_accumulator -= (float)ticker_pixel_accumulator_uint; } if (ticker_pixel_accumulator_uint > 0) { p_anim->ticker_pixel_line_idx += ticker_pixel_line_accumulator_uint; ticker_pixel_line_accumulator -= (float)ticker_pixel_line_accumulator_uint; } } p_anim->in_update = true; p_anim->pending_deletes = false; for (i = 0; i < RBUF_LEN(p_anim->list); i++) { struct tween *tween = &p_anim->list[i]; if (tween->deleted) continue; tween->running_since += p_anim->delta_time; *tween->subject = tween->easing( tween->running_since, tween->initial_value, tween->target_value - tween->initial_value, tween->duration); if (tween->running_since >= tween->duration) { *tween->subject = tween->target_value; if (tween->cb) tween->cb(tween->userdata); RBUF_REMOVE(p_anim->list, i); i--; } } if (p_anim->pending_deletes) { for (i = 0; i < RBUF_LEN(p_anim->list); i++) { struct tween *tween = &p_anim->list[i]; if (tween->deleted) { RBUF_REMOVE(p_anim->list, i); i--; } } p_anim->pending_deletes = false; } if (RBUF_LEN(p_anim->pending) > 0) { size_t list_len = RBUF_LEN(p_anim->list); size_t pending_len = RBUF_LEN(p_anim->pending); RBUF_RESIZE(p_anim->list, list_len + pending_len); memcpy(p_anim->list + list_len, p_anim->pending, sizeof(*p_anim->pending) * pending_len); RBUF_CLEAR(p_anim->pending); } p_anim->in_update = false; p_anim->animation_is_active = RBUF_LEN(p_anim->list) > 0; return p_anim->animation_is_active; } static void build_ticker_loop_string( const char* src_str, const char *spacer, size_t char_offset1, size_t num_chars1, size_t char_offset2, size_t num_chars2, size_t char_offset3, size_t num_chars3, char *dest_str, size_t dest_str_len) { /* Copy 'trailing' chunk of source string, if required */ if (num_chars1 > 0) utf8cpy( dest_str, dest_str_len, utf8skip(src_str, char_offset1), num_chars1); else dest_str[0] = '\0'; /* Copy chunk of spacer string, if required */ if (num_chars2 > 0) { char tmp[PATH_MAX_LENGTH]; utf8cpy( tmp, sizeof(tmp), utf8skip(spacer, char_offset2), num_chars2); strlcat(dest_str, tmp, dest_str_len); } /* Copy 'leading' chunk of source string, if required */ if (num_chars3 > 0) { char tmp[PATH_MAX_LENGTH]; utf8cpy( tmp, sizeof(tmp), utf8skip(src_str, char_offset3), num_chars3); strlcat(dest_str, tmp, dest_str_len); } } static void build_line_ticker_string( size_t num_display_lines, size_t line_offset, struct string_list *lines, char *dest_str, size_t dest_str_len) { size_t i; for (i = 0; i < (num_display_lines-1); i++) { size_t offset = i + line_offset; size_t line_index = offset % (lines->size + 1); /* Is line valid? */ if (line_index < lines->size) strlcat(dest_str, lines->elems[line_index].data, dest_str_len); strlcat(dest_str, "\n", dest_str_len); } { size_t offset = (num_display_lines-1) + line_offset; size_t line_index = offset % (lines->size + 1); /* Is line valid? */ if (line_index < lines->size) strlcat(dest_str, lines->elems[line_index].data, dest_str_len); } } bool gfx_animation_ticker(gfx_animation_ctx_ticker_t *ticker) { gfx_animation_t *p_anim = &anim_st; size_t str_len = utf8len(ticker->str); if (!ticker->spacer) ticker->spacer = TICKER_SPACER_DEFAULT; if ((size_t)str_len <= ticker->len) { utf8cpy(ticker->s, PATH_MAX_LENGTH, ticker->str, ticker->len); return false; } if (!ticker->selected) { size_t len = utf8cpy(ticker->s, PATH_MAX_LENGTH, ticker->str, ticker->len - 3); ticker->s[len ] = '.'; ticker->s[len+1] = '.'; ticker->s[len+2] = '.'; ticker->s[len+3] = '\0'; return false; } /* Note: If we reach this point then str_len > ticker->len * (previously had an unecessary 'if (str_len > ticker->len)' * check here...) */ switch (ticker->type_enum) { case TICKER_TYPE_LOOP: { size_t offset1, offset2, offset3; size_t width1, width2, width3; gfx_animation_ticker_loop( ticker->idx, ticker->len, str_len, utf8len(ticker->spacer), &offset1, &width1, &offset2, &width2, &offset3, &width3); build_ticker_loop_string( ticker->str, ticker->spacer, offset1, width1, offset2, width2, offset3, width3, ticker->s, PATH_MAX_LENGTH); } break; case TICKER_TYPE_BOUNCE: default: { size_t offset = gfx_animation_ticker_generic( ticker->idx, str_len - ticker->len); str_len = ticker->len; utf8cpy( ticker->s, PATH_MAX_LENGTH, utf8skip(ticker->str, offset), str_len); } break; } p_anim->ticker_is_active = true; return true; } /* 'Fixed width' font version of gfx_animation_ticker_smooth() */ static bool gfx_animation_ticker_smooth_fw( gfx_animation_t *p_anim, gfx_animation_ctx_ticker_smooth_t *ticker) { size_t spacer_len = 0; unsigned glyph_width = ticker->glyph_width; unsigned src_str_width = 0; unsigned spacer_width = 0; bool success = false; bool is_active = false; /* Sanity check has already been performed by * gfx_animation_ticker_smooth() - no need to * repeat */ /* Get length + width of src string */ size_t src_str_len = utf8len(ticker->src_str); if (src_str_len < 1) goto end; src_str_width = (unsigned)(src_str_len * glyph_width); /* If src string width is <= text field width, we * can just copy the entire string */ if (src_str_width <= ticker->field_width) { utf8cpy(ticker->dst_str, ticker->dst_str_len, ticker->src_str, src_str_len); if (ticker->dst_str_width) *ticker->dst_str_width = src_str_width; *ticker->x_offset = 0; success = true; goto end; } /* If entry is not selected, just clip input string * and add '...' suffix */ if (!ticker->selected) { size_t _len; unsigned num_chars = 0; unsigned suffix_len = 3; unsigned suffix_width = suffix_len * glyph_width; /* Sanity check */ if (ticker->field_width < suffix_width) goto end; /* Determine number of characters to copy */ num_chars = (ticker->field_width - suffix_width) / glyph_width; /* Copy string segment + add suffix */ _len = utf8cpy(ticker->dst_str, ticker->dst_str_len, ticker->src_str, num_chars); ticker->dst_str[_len ] = '.'; ticker->dst_str[_len+1] = '.'; ticker->dst_str[_len+2] = '.'; ticker->dst_str[_len+3] = '\0'; if (ticker->dst_str_width) *ticker->dst_str_width = (num_chars * glyph_width) + suffix_width; *ticker->x_offset = 0; success = true; goto end; } /* If we get this far, then a scrolling animation * is required... */ /* Use default spacer, if none is provided */ if (!ticker->spacer) ticker->spacer = TICKER_SPACER_DEFAULT; /* Get length + width of spacer */ if ((spacer_len = utf8len(ticker->spacer)) < 1) goto end; spacer_width = (unsigned)(spacer_len * glyph_width); /* Determine animation type */ switch (ticker->type_enum) { case TICKER_TYPE_LOOP: { unsigned char_offset1 = 0; unsigned num_chars1 = 0; unsigned char_offset2 = 0; unsigned num_chars2 = 0; unsigned char_offset3 = 0; unsigned num_chars3 = 0; gfx_animation_ticker_smooth_loop_fw( ticker->idx, src_str_width, src_str_len, spacer_width, spacer_len, glyph_width, ticker->field_width, &char_offset1, &num_chars1, &char_offset2, &num_chars2, &char_offset3, &num_chars3, ticker->x_offset); build_ticker_loop_string( ticker->src_str, ticker->spacer, char_offset1, num_chars1, char_offset2, num_chars2, char_offset3, num_chars3, ticker->dst_str, ticker->dst_str_len); if (ticker->dst_str_width) *ticker->dst_str_width = (num_chars1 + num_chars2 + num_chars3) * glyph_width; break; } case TICKER_TYPE_BOUNCE: default: { unsigned char_offset = 0; unsigned num_chars = 0; gfx_animation_ticker_smooth_generic_fw( ticker->idx, src_str_width, src_str_len, glyph_width, ticker->field_width, &char_offset, &num_chars, ticker->x_offset); /* Copy required substring */ if (num_chars > 0) utf8cpy( ticker->dst_str, ticker->dst_str_len, utf8skip(ticker->src_str, char_offset), num_chars); else ticker->dst_str[0] = '\0'; if (ticker->dst_str_width) *ticker->dst_str_width = num_chars * glyph_width; break; } } success = true; is_active = true; p_anim->ticker_is_active = true; end: if (!success) { *ticker->x_offset = 0; if (ticker->dst_str_len > 0) ticker->dst_str[0] = '\0'; } return is_active; } bool gfx_animation_ticker_smooth(gfx_animation_ctx_ticker_smooth_t *ticker) { size_t i; size_t src_str_len = 0; size_t spacer_len = 0; unsigned small_src_char_widths[64] = {0}; unsigned src_str_width = 0; unsigned spacer_width = 0; unsigned *src_char_widths = NULL; unsigned *spacer_char_widths = NULL; const char *str_ptr = NULL; bool success = false; bool is_active = false; gfx_animation_t *p_anim = &anim_st; /* Sanity check */ if (string_is_empty(ticker->src_str) || (ticker->dst_str_len < 1) || (ticker->field_width < 1) || (!ticker->font && (ticker->glyph_width < 1))) goto end; /* If we are using a fixed width font (ticker->font == NULL), * switch to optimised code path */ if (!ticker->font) return gfx_animation_ticker_smooth_fw(p_anim, ticker); /* Find the display width of each character in * the src string + total width */ if ((src_str_len = utf8len(ticker->src_str)) < 1) goto end; src_char_widths = small_src_char_widths; if (src_str_len > ARRAY_SIZE(small_src_char_widths)) { if (!(src_char_widths = (unsigned*)calloc(src_str_len, sizeof(unsigned)))) goto end; } str_ptr = ticker->src_str; for (i = 0; i < src_str_len; i++) { int glyph_width = font_driver_get_message_width( ticker->font, str_ptr, 1, ticker->font_scale); if (glyph_width < 0) goto end; src_char_widths[i] = (unsigned)glyph_width; src_str_width += (unsigned)glyph_width; str_ptr = utf8skip(str_ptr, 1); } /* If total src string width is <= text field width, we * can just copy the entire string */ if (src_str_width <= ticker->field_width) { utf8cpy(ticker->dst_str, ticker->dst_str_len, ticker->src_str, src_str_len); if (ticker->dst_str_width) *ticker->dst_str_width = src_str_width; *ticker->x_offset = 0; success = true; goto end; } /* If entry is not selected, just clip input string * and add '...' suffix */ if (!ticker->selected) { size_t _len; unsigned text_width; unsigned current_width = 0; unsigned num_chars = 0; int period_width = font_driver_get_message_width(ticker->font, ".", 1, ticker->font_scale); /* Sanity check */ if (period_width < 0) goto end; if (ticker->field_width < (3 * (unsigned)period_width)) goto end; /* Determine number of characters to copy */ text_width = ticker->field_width - (3 * period_width); for (;;) { current_width += src_char_widths[num_chars]; if (current_width > text_width) { /* Have to go back one in order to get 'actual' * value for dst_str_width */ current_width -= src_char_widths[num_chars]; break; } num_chars++; } /* Copy string segment + add suffix */ _len = utf8cpy(ticker->dst_str, ticker->dst_str_len, ticker->src_str, num_chars); ticker->dst_str[_len ] = '.'; ticker->dst_str[_len+1] = '.'; ticker->dst_str[_len+2] = '.'; ticker->dst_str[_len+3] = '\0'; if (ticker->dst_str_width) *ticker->dst_str_width = current_width + (3 * period_width); *ticker->x_offset = 0; success = true; goto end; } /* If we get this far, then a scrolling animation * is required... */ /* Use default spacer, if none is provided */ if (!ticker->spacer) ticker->spacer = TICKER_SPACER_DEFAULT; /* Find the display width of each character in * the spacer */ if ((spacer_len = utf8len(ticker->spacer)) < 1) goto end; if (!(spacer_char_widths = (unsigned*)calloc(spacer_len, sizeof(unsigned)))) goto end; str_ptr = ticker->spacer; for (i = 0; i < spacer_len; i++) { int glyph_width = font_driver_get_message_width( ticker->font, str_ptr, 1, ticker->font_scale); if (glyph_width < 0) goto end; spacer_char_widths[i] = (unsigned)glyph_width; spacer_width += (unsigned)glyph_width; str_ptr = utf8skip(str_ptr, 1); } /* Determine animation type */ switch (ticker->type_enum) { case TICKER_TYPE_LOOP: { unsigned char_offset1 = 0; unsigned num_chars1 = 0; unsigned char_offset2 = 0; unsigned num_chars2 = 0; unsigned char_offset3 = 0; unsigned num_chars3 = 0; gfx_animation_ticker_smooth_loop( ticker->idx, src_char_widths, src_str_len, spacer_char_widths, spacer_len, src_str_width, spacer_width, ticker->field_width, &char_offset1, &num_chars1, &char_offset2, &num_chars2, &char_offset3, &num_chars3, ticker->x_offset, ticker->dst_str_width); build_ticker_loop_string( ticker->src_str, ticker->spacer, char_offset1, num_chars1, char_offset2, num_chars2, char_offset3, num_chars3, ticker->dst_str, ticker->dst_str_len); break; } case TICKER_TYPE_BOUNCE: default: { unsigned char_offset = 0; unsigned num_chars = 0; gfx_animation_ticker_smooth_generic( ticker->idx, src_char_widths, src_str_len, src_str_width, ticker->field_width, &char_offset, &num_chars, ticker->x_offset, ticker->dst_str_width); /* Copy required substring */ if (num_chars > 0) utf8cpy( ticker->dst_str, ticker->dst_str_len, utf8skip(ticker->src_str, char_offset), num_chars); else ticker->dst_str[0] = '\0'; break; } } success = true; is_active = true; p_anim->ticker_is_active = true; end: if (src_char_widths != small_src_char_widths && src_char_widths) { free(src_char_widths); src_char_widths = NULL; } if (spacer_char_widths) { free(spacer_char_widths); spacer_char_widths = NULL; } if (!success) { *ticker->x_offset = 0; if (ticker->dst_str_len > 0) ticker->dst_str[0] = '\0'; } return is_active; } bool gfx_animation_line_ticker(gfx_animation_ctx_line_ticker_t *line_ticker) { char *wrapped_str = NULL; size_t wrapped_str_len = 0; size_t line_ticker_str_len = 0; struct string_list lines = {0}; size_t line_offset = 0; bool success = false; bool is_active = false; gfx_animation_t *p_anim = &anim_st; /* Sanity check */ if (!line_ticker) return false; if (string_is_empty(line_ticker->str) || (line_ticker->line_len < 1) || (line_ticker->max_lines < 1)) goto end; /* Line wrap input string */ line_ticker_str_len = strlen(line_ticker->str); wrapped_str_len = line_ticker_str_len + 1 + 10; /* 10 bytes use for inserting '\n' */ if (!(wrapped_str = (char*)malloc(wrapped_str_len))) goto end; wrapped_str[0] = '\0'; word_wrap( wrapped_str, wrapped_str_len, line_ticker->str, line_ticker_str_len, (int)line_ticker->line_len, 100, 0); if (string_is_empty(wrapped_str)) goto end; /* Split into component lines */ string_list_initialize(&lines); if (!string_split_noalloc(&lines, wrapped_str, "\n")) goto end; /* Check whether total number of lines fits within * the set limit */ if (lines.size <= line_ticker->max_lines) { strlcpy(line_ticker->s, wrapped_str, line_ticker->len); success = true; goto end; } /* Determine offset of first line in wrapped string */ switch (line_ticker->type_enum) { case TICKER_TYPE_LOOP: line_offset = gfx_animation_line_ticker_loop( line_ticker->idx, line_ticker->line_len, lines.size); break; case TICKER_TYPE_BOUNCE: default: line_offset = gfx_animation_line_ticker_generic( line_ticker->idx, line_ticker->line_len, line_ticker->max_lines, lines.size); break; } /* Build output string from required lines */ build_line_ticker_string( line_ticker->max_lines, line_offset, &lines, line_ticker->s, line_ticker->len); success = true; is_active = true; p_anim->ticker_is_active = true; end: if (wrapped_str) { free(wrapped_str); wrapped_str = NULL; } string_list_deinitialize(&lines); if (!success) if (line_ticker->len > 0) line_ticker->s[0] = '\0'; return is_active; } bool gfx_animation_line_ticker_smooth(gfx_animation_ctx_line_ticker_smooth_t *line_ticker) { char *wrapped_str = NULL; size_t line_ticker_src_len = 0; size_t wrapped_str_len = 0; struct string_list lines = {0}; int glyph_width = 0; int glyph_height = 0; size_t line_len = 0; size_t max_display_lines = 0; size_t num_display_lines = 0; size_t line_offset = 0; size_t top_fade_line_offset = 0; size_t bottom_fade_line_offset = 0; bool fade_active = false; bool success = false; bool is_active = false; gfx_animation_t *p_anim = &anim_st; const char *wideglyph_str = NULL; int wideglyph_width = 100; void (*word_wrap_func)(char *dst, size_t dst_size, const char *src, size_t src_len, int line_width, int wideglyph_width, unsigned max_lines); /* Sanity check */ if (!line_ticker) return false; if (!line_ticker->font || string_is_empty(line_ticker->src_str) || (line_ticker->field_width < 1) || (line_ticker->field_height < 1)) goto end; /* Get font dimensions */ /* > Width * This is a bit of a fudge. Performing a 'font aware' * (i.e. character display width) word wrap is too CPU * intensive, so we just sample the width of a common * character and hope for the best. (We choose 'a' because * this is what Ozone uses for spacing calculations, and * it is proven to work quite well) */ if ((glyph_width = font_driver_get_message_width( line_ticker->font, "a", 1, line_ticker->font_scale)) <= 0) goto end; if ((wideglyph_str = msg_hash_get_wideglyph_str())) { int new_glyph_width = font_driver_get_message_width( line_ticker->font, wideglyph_str, strlen(wideglyph_str), line_ticker->font_scale); if (new_glyph_width > 0) wideglyph_width = new_glyph_width * 100 / glyph_width; word_wrap_func = word_wrap_wideglyph; } else word_wrap_func = word_wrap; /* > Height */ if ((glyph_height = font_driver_get_line_height( line_ticker->font, line_ticker->font_scale)) <= 0) goto end; /* Determine line wrap parameters */ line_len = (size_t)(line_ticker->field_width / glyph_width); max_display_lines = (size_t)(line_ticker->field_height / glyph_height); if ((line_len < 1) || (max_display_lines < 1)) goto end; /* Line wrap input string */ line_ticker_src_len = strlen(line_ticker->src_str); /* 10 bytes use for inserting '\n' */ wrapped_str_len = line_ticker_src_len + 1 + 10; if (!(wrapped_str = (char*)malloc(wrapped_str_len))) goto end; wrapped_str[0] = '\0'; (word_wrap_func)( wrapped_str, wrapped_str_len, line_ticker->src_str, line_ticker_src_len, (int)line_len, wideglyph_width, 0); if (string_is_empty(wrapped_str)) goto end; string_list_initialize(&lines); /* Split into component lines */ if (!string_split_noalloc(&lines, wrapped_str, "\n")) goto end; /* Check whether total number of lines fits within * the set field limit */ if (lines.size <= max_display_lines) { strlcpy(line_ticker->dst_str, wrapped_str, line_ticker->dst_str_len); *line_ticker->y_offset = 0.0f; /* No fade animation is required */ if (line_ticker->fade_enabled) { if (line_ticker->top_fade_str_len > 0) line_ticker->top_fade_str[0] = '\0'; if (line_ticker->bottom_fade_str_len > 0) line_ticker->bottom_fade_str[0] = '\0'; *line_ticker->top_fade_y_offset = 0.0f; *line_ticker->bottom_fade_y_offset = 0.0f; *line_ticker->top_fade_alpha = 0.0f; *line_ticker->bottom_fade_alpha = 0.0f; } success = true; goto end; } /* Determine which lines should be shown, along with * y axis draw offset */ switch (line_ticker->type_enum) { case TICKER_TYPE_LOOP: gfx_animation_line_ticker_smooth_loop( line_ticker->idx, line_ticker->fade_enabled, line_len, (size_t)glyph_height, max_display_lines, lines.size, &num_display_lines, &line_offset, line_ticker->y_offset, &fade_active, &top_fade_line_offset, line_ticker->top_fade_y_offset, line_ticker->top_fade_alpha, &bottom_fade_line_offset, line_ticker->bottom_fade_y_offset, line_ticker->bottom_fade_alpha); break; case TICKER_TYPE_BOUNCE: default: gfx_animation_line_ticker_smooth_generic( line_ticker->idx, line_ticker->fade_enabled, line_len, (size_t)glyph_height, max_display_lines, lines.size, &num_display_lines, &line_offset, line_ticker->y_offset, &fade_active, &top_fade_line_offset, line_ticker->top_fade_y_offset, line_ticker->top_fade_alpha, &bottom_fade_line_offset, line_ticker->bottom_fade_y_offset, line_ticker->bottom_fade_alpha); break; } /* Build output string from required lines */ build_line_ticker_string( num_display_lines, line_offset, &lines, line_ticker->dst_str, line_ticker->dst_str_len); /* Extract top/bottom fade strings, if required */ if (fade_active) { /* We waste a handful of clock cycles by using * build_line_ticker_string() here, but it saves * rewriting a heap of code... */ build_line_ticker_string( 1, top_fade_line_offset, &lines, line_ticker->top_fade_str, line_ticker->top_fade_str_len); build_line_ticker_string( 1, bottom_fade_line_offset, &lines, line_ticker->bottom_fade_str, line_ticker->bottom_fade_str_len); } success = true; is_active = true; p_anim->ticker_is_active = true; end: if (wrapped_str) { free(wrapped_str); wrapped_str = NULL; } string_list_deinitialize(&lines); if (!success) { if (line_ticker->dst_str_len > 0) line_ticker->dst_str[0] = '\0'; if (line_ticker->fade_enabled) { if (line_ticker->top_fade_str_len > 0) line_ticker->top_fade_str[0] = '\0'; if (line_ticker->bottom_fade_str_len > 0) line_ticker->bottom_fade_str[0] = '\0'; *line_ticker->top_fade_alpha = 0.0f; *line_ticker->bottom_fade_alpha = 0.0f; } } return is_active; } bool gfx_animation_kill_by_tag(uintptr_t *tag) { unsigned i; gfx_animation_t *p_anim = &anim_st; if (!tag || *tag == (uintptr_t)-1) return false; /* Scan animation list */ for (i = 0; i < RBUF_LEN(p_anim->list); ++i) { struct tween *t = &p_anim->list[i]; if (t->tag != *tag) continue; /* If we are currently inside gfx_animation_update(), * we are already looping over p_anim->list entries * > Cannot modify p_anim->list now, so schedule a * delete for when the gfx_animation_update() loop * is complete */ if (p_anim->in_update) { t->deleted = true; p_anim->pending_deletes = true; } else { RBUF_REMOVE(p_anim->list, i); --i; } } /* If we are currently inside gfx_animation_update(), * also have to scan *pending* animation list * (otherwise any entries that are simultaneously added * and deleted inside gfx_animation_update() won't get * deleted at all, producing utter chaos) */ if (p_anim->in_update) { for (i = 0; i < RBUF_LEN(p_anim->pending); ++i) { struct tween *t = &p_anim->pending[i]; if (t->tag != *tag) continue; RBUF_REMOVE(p_anim->pending, i); --i; } } return true; } void gfx_animation_deinit(void) { gfx_animation_t *p_anim = &anim_st; if (!p_anim) return; RBUF_FREE(p_anim->list); RBUF_FREE(p_anim->pending); if (p_anim->updatetime_cb) p_anim->updatetime_cb = NULL; memset(p_anim, 0, sizeof(*p_anim)); } void gfx_animation_timer_start(float *timer, gfx_timer_ctx_entry_t *timer_entry) { gfx_animation_ctx_entry_t entry; uintptr_t tag = (uintptr_t) timer; gfx_animation_kill_by_tag(&tag); *timer = 0.0f; entry.easing_enum = EASING_LINEAR; entry.tag = tag; entry.duration = timer_entry->duration; entry.target_value = 1.0f; entry.subject = timer; entry.cb = timer_entry->cb; entry.userdata = timer_entry->userdata; gfx_animation_push(&entry); }