/* * Copyright (c) 2018-2020, Andreas Kling * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "Painter.h" #include "Emoji.h" #include "Font.h" #include "GraphicsBitmap.h" #include #include #include #include #include #include #include #include #if defined(__GNUC__) && !defined(__clang__) #pragma GCC optimize("O3") #endif #ifndef ALWAYS_INLINE #if __has_attribute(always_inline) #define ALWAYS_INLINE __attribute__((always_inline)) #else #define ALWAYS_INLINE inline #endif #endif namespace Gfx { template static ALWAYS_INLINE Color get_pixel(const Gfx::Bitmap& bitmap, int x, int y) { if constexpr (format == Bitmap::Format::Indexed8) return bitmap.palette_color(bitmap.bits(y)[x]); if constexpr (format == Bitmap::Format::RGB32) return Color::from_rgb(bitmap.scanline(y)[x]); if constexpr (format == Bitmap::Format::RGBA32) return Color::from_rgba(bitmap.scanline(y)[x]); return bitmap.get_pixel(x, y); } Painter::Painter(Gfx::Bitmap& bitmap) : m_target(bitmap) { m_state_stack.append(State()); state().font = &Font::default_font(); state().clip_rect = { { 0, 0 }, bitmap.size() }; m_clip_origin = state().clip_rect; } Painter::~Painter() { } void Painter::fill_rect_with_draw_op(const Rect& a_rect, Color color) { auto rect = a_rect.translated(translation()).intersected(clip_rect()); if (rect.is_empty()) return; RGBA32* dst = m_target->scanline(rect.top()) + rect.left(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); for (int i = rect.height() - 1; i >= 0; --i) { for (int j = 0; j < rect.width(); ++j) set_pixel_with_draw_op(dst[j], color); dst += dst_skip; } } void Painter::clear_rect(const Rect& a_rect, Color color) { auto rect = a_rect.translated(translation()).intersected(clip_rect()); if (rect.is_empty()) return; ASSERT(m_target->rect().contains(rect)); RGBA32* dst = m_target->scanline(rect.top()) + rect.left(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); for (int i = rect.height() - 1; i >= 0; --i) { fast_u32_fill(dst, color.value(), rect.width()); dst += dst_skip; } } void Painter::fill_rect(const Rect& a_rect, Color color) { if (color.alpha() == 0) return; if (draw_op() != DrawOp::Copy) { fill_rect_with_draw_op(a_rect, color); return; } if (color.alpha() == 0xff) { clear_rect(a_rect, color); return; } auto rect = a_rect.translated(translation()).intersected(clip_rect()); if (rect.is_empty()) return; ASSERT(m_target->rect().contains(rect)); RGBA32* dst = m_target->scanline(rect.top()) + rect.left(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); for (int i = rect.height() - 1; i >= 0; --i) { for (int j = 0; j < rect.width(); ++j) dst[j] = Color::from_rgba(dst[j]).blend(color).value(); dst += dst_skip; } } void Painter::fill_rect_with_gradient(const Rect& a_rect, Color gradient_start, Color gradient_end) { #ifdef NO_FPU return fill_rect(a_rect, gradient_start); #endif auto rect = a_rect.translated(translation()); auto clipped_rect = Rect::intersection(rect, clip_rect()); if (clipped_rect.is_empty()) return; int x_offset = clipped_rect.x() - rect.x(); RGBA32* dst = m_target->scanline(clipped_rect.top()) + clipped_rect.left(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); float increment = (1.0 / ((rect.width()) / 255.0)); int r2 = gradient_start.red(); int g2 = gradient_start.green(); int b2 = gradient_start.blue(); int r1 = gradient_end.red(); int g1 = gradient_end.green(); int b1 = gradient_end.blue(); for (int i = clipped_rect.height() - 1; i >= 0; --i) { float c = x_offset * increment; for (int j = 0; j < clipped_rect.width(); ++j) { dst[j] = Color( r1 / 255.0 * c + r2 / 255.0 * (255 - c), g1 / 255.0 * c + g2 / 255.0 * (255 - c), b1 / 255.0 * c + b2 / 255.0 * (255 - c)) .value(); c += increment; } dst += dst_skip; } } void Painter::draw_ellipse_intersecting(const Rect& rect, Color color, int thickness) { constexpr int number_samples = 100; // FIXME: dynamically work out the number of samples based upon the rect size double increment = M_PI / number_samples; auto ellipse_x = [&](double theta) -> int { return (cos(theta) * rect.width() / sqrt(2)) + rect.center().x(); }; auto ellipse_y = [&](double theta) -> int { return (sin(theta) * rect.height() / sqrt(2)) + rect.center().y(); }; for (float theta = 0; theta < 2 * M_PI; theta += increment) { draw_line({ ellipse_x(theta), ellipse_y(theta) }, { ellipse_x(theta + increment), ellipse_y(theta + increment) }, color, thickness); } } void Painter::draw_rect(const Rect& a_rect, Color color, bool rough) { Rect rect = a_rect.translated(translation()); auto clipped_rect = rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; int min_y = clipped_rect.top(); int max_y = clipped_rect.bottom(); if (rect.top() >= clipped_rect.top() && rect.top() <= clipped_rect.bottom()) { int start_x = rough ? max(rect.x() + 1, clipped_rect.x()) : clipped_rect.x(); int width = rough ? min(rect.width() - 2, clipped_rect.width()) : clipped_rect.width(); fast_u32_fill(m_target->scanline(rect.top()) + start_x, color.value(), width); ++min_y; } if (rect.bottom() >= clipped_rect.top() && rect.bottom() <= clipped_rect.bottom()) { int start_x = rough ? max(rect.x() + 1, clipped_rect.x()) : clipped_rect.x(); int width = rough ? min(rect.width() - 2, clipped_rect.width()) : clipped_rect.width(); fast_u32_fill(m_target->scanline(rect.bottom()) + start_x, color.value(), width); --max_y; } bool draw_left_side = rect.left() >= clipped_rect.left(); bool draw_right_side = rect.right() == clipped_rect.right(); if (draw_left_side && draw_right_side) { // Specialized loop when drawing both sides. for (int y = min_y; y <= max_y; ++y) { auto* bits = m_target->scanline(y); bits[rect.left()] = color.value(); bits[rect.right()] = color.value(); } } else { for (int y = min_y; y <= max_y; ++y) { auto* bits = m_target->scanline(y); if (draw_left_side) bits[rect.left()] = color.value(); if (draw_right_side) bits[rect.right()] = color.value(); } } } void Painter::draw_bitmap(const Point& p, const CharacterBitmap& bitmap, Color color) { auto rect = Rect(p, bitmap.size()).translated(translation()); auto clipped_rect = rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = clipped_rect.top() - rect.top(); const int last_row = clipped_rect.bottom() - rect.top(); const int first_column = clipped_rect.left() - rect.left(); const int last_column = clipped_rect.right() - rect.left(); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); const char* bitmap_row = &bitmap.bits()[first_row * bitmap.width() + first_column]; const size_t bitmap_skip = bitmap.width(); for (int row = first_row; row <= last_row; ++row) { for (int j = 0; j <= (last_column - first_column); ++j) { char fc = bitmap_row[j]; if (fc == '#') dst[j] = color.value(); } bitmap_row += bitmap_skip; dst += dst_skip; } } void Painter::draw_bitmap(const Point& p, const GlyphBitmap& bitmap, Color color) { auto dst_rect = Rect(p, bitmap.size()).translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = clipped_rect.top() - dst_rect.top(); const int last_row = clipped_rect.bottom() - dst_rect.top(); const int first_column = clipped_rect.left() - dst_rect.left(); const int last_column = clipped_rect.right() - dst_rect.left(); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); for (int row = first_row; row <= last_row; ++row) { for (int j = 0; j <= (last_column - first_column); ++j) { if (bitmap.bit_at(j + first_column, row)) dst[j] = color.value(); } dst += dst_skip; } } void Painter::blit_scaled(const Rect& dst_rect_raw, const Gfx::Bitmap& source, const Rect& src_rect, float hscale, float vscale) { auto dst_rect = Rect(dst_rect_raw.location(), dst_rect_raw.size()).translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = (clipped_rect.top() - dst_rect.top()); const int last_row = (clipped_rect.bottom() - dst_rect.top()); const int first_column = (clipped_rect.left() - dst_rect.left()); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); int x_start = first_column + src_rect.left(); for (int row = first_row; row <= last_row; ++row) { int sr = (row + src_rect.top()) * vscale; if (sr >= source.size().height() || sr < 0) { dst += dst_skip; continue; } const RGBA32* sl = source.scanline(sr); for (int x = x_start; x < clipped_rect.width() + x_start; ++x) { int sx = x * hscale; if (sx < source.size().width() && sx >= 0) dst[x - x_start] = sl[sx]; } dst += dst_skip; } return; } void Painter::blit_with_opacity(const Point& position, const Gfx::Bitmap& source, const Rect& src_rect, float opacity) { ASSERT(!m_target->has_alpha_channel()); if (!opacity) return; if (opacity >= 1.0f) return blit(position, source, src_rect); u8 alpha = 255 * opacity; Rect safe_src_rect = Rect::intersection(src_rect, source.rect()); Rect dst_rect(position, safe_src_rect.size()); dst_rect.move_by(state().translation); auto clipped_rect = Rect::intersection(dst_rect, clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = clipped_rect.top() - dst_rect.top(); const int last_row = clipped_rect.bottom() - dst_rect.top(); const int first_column = clipped_rect.left() - dst_rect.left(); const int last_column = clipped_rect.right() - dst_rect.left(); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const RGBA32* src = source.scanline(src_rect.top() + first_row) + src_rect.left() + first_column; const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); const unsigned src_skip = source.pitch() / sizeof(RGBA32); for (int row = first_row; row <= last_row; ++row) { for (int x = 0; x <= (last_column - first_column); ++x) { Color src_color_with_alpha = Color::from_rgb(src[x]); src_color_with_alpha.set_alpha(alpha); Color dst_color = Color::from_rgb(dst[x]); dst[x] = dst_color.blend(src_color_with_alpha).value(); } dst += dst_skip; src += src_skip; } } void Painter::blit_dimmed(const Point& position, const Gfx::Bitmap& source, const Rect& src_rect) { Rect safe_src_rect = src_rect.intersected(source.rect()); auto dst_rect = Rect(position, safe_src_rect.size()).translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = clipped_rect.top() - dst_rect.top(); const int last_row = clipped_rect.bottom() - dst_rect.top(); const int first_column = clipped_rect.left() - dst_rect.left(); const int last_column = clipped_rect.right() - dst_rect.left(); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const RGBA32* src = source.scanline(src_rect.top() + first_row) + src_rect.left() + first_column; const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); const size_t src_skip = source.pitch() / sizeof(RGBA32); for (int row = first_row; row <= last_row; ++row) { for (int x = 0; x <= (last_column - first_column); ++x) { u8 alpha = Color::from_rgba(src[x]).alpha(); if (alpha == 0xff) dst[x] = Color::from_rgba(src[x]).to_grayscale().lightened().value(); else if (!alpha) continue; else dst[x] = Color::from_rgba(dst[x]).blend(Color::from_rgba(src[x]).to_grayscale().lightened()).value(); } dst += dst_skip; src += src_skip; } } void Painter::draw_tiled_bitmap(const Rect& a_dst_rect, const Gfx::Bitmap& source) { auto dst_rect = a_dst_rect.translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = (clipped_rect.top() - dst_rect.top()); const int last_row = (clipped_rect.bottom() - dst_rect.top()); const int first_column = (clipped_rect.left() - dst_rect.left()); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); if (source.format() == Bitmap::Format::RGB32 || source.format() == Bitmap::Format::RGBA32) { int x_start = first_column + a_dst_rect.left(); for (int row = first_row; row <= last_row; ++row) { const RGBA32* sl = source.scanline((row + a_dst_rect.top()) % source.size().height()); for (int x = x_start; x < clipped_rect.width() + x_start; ++x) { dst[x - x_start] = sl[x % source.size().width()]; } dst += dst_skip; } return; } ASSERT_NOT_REACHED(); } void Painter::blit_offset(const Point& position, const Gfx::Bitmap& source, const Rect& src_rect, const Point& offset) { auto dst_rect = Rect(position, src_rect.size()).translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = (clipped_rect.top() - dst_rect.top()); const int last_row = (clipped_rect.bottom() - dst_rect.top()); const int first_column = (clipped_rect.left() - dst_rect.left()); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); if (source.format() == Bitmap::Format::RGB32 || source.format() == Bitmap::Format::RGBA32) { int x_start = first_column + src_rect.left(); for (int row = first_row; row <= last_row; ++row) { int sr = row - offset.y() + src_rect.top(); if (sr >= source.size().height() || sr < 0) { dst += dst_skip; continue; } const RGBA32* sl = source.scanline(sr); for (int x = x_start; x < clipped_rect.width() + x_start; ++x) { int sx = x - offset.x(); if (sx < source.size().width() && sx >= 0) dst[x - x_start] = sl[sx]; } dst += dst_skip; } return; } ASSERT_NOT_REACHED(); } void Painter::blit_with_alpha(const Point& position, const Gfx::Bitmap& source, const Rect& src_rect) { ASSERT(source.has_alpha_channel()); Rect safe_src_rect = src_rect.intersected(source.rect()); auto dst_rect = Rect(position, safe_src_rect.size()).translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = clipped_rect.top() - dst_rect.top(); const int last_row = clipped_rect.bottom() - dst_rect.top(); const int first_column = clipped_rect.left() - dst_rect.left(); const int last_column = clipped_rect.right() - dst_rect.left(); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const RGBA32* src = source.scanline(src_rect.top() + first_row) + src_rect.left() + first_column; const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); const size_t src_skip = source.pitch() / sizeof(RGBA32); for (int row = first_row; row <= last_row; ++row) { for (int x = 0; x <= (last_column - first_column); ++x) { u8 alpha = Color::from_rgba(src[x]).alpha(); if (alpha == 0xff) dst[x] = src[x]; else if (!alpha) continue; else dst[x] = Color::from_rgba(dst[x]).blend(Color::from_rgba(src[x])).value(); } dst += dst_skip; src += src_skip; } } void Painter::blit(const Point& position, const Gfx::Bitmap& source, const Rect& src_rect, float opacity) { if (opacity < 1.0f) return blit_with_opacity(position, source, src_rect, opacity); if (source.has_alpha_channel()) return blit_with_alpha(position, source, src_rect); auto safe_src_rect = src_rect.intersected(source.rect()); ASSERT(source.rect().contains(safe_src_rect)); auto dst_rect = Rect(position, safe_src_rect.size()).translated(translation()); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; const int first_row = clipped_rect.top() - dst_rect.top(); const int last_row = clipped_rect.bottom() - dst_rect.top(); const int first_column = clipped_rect.left() - dst_rect.left(); RGBA32* dst = m_target->scanline(clipped_rect.y()) + clipped_rect.x(); const size_t dst_skip = m_target->pitch() / sizeof(RGBA32); if (source.format() == Bitmap::Format::RGB32 || source.format() == Bitmap::Format::RGBA32) { const RGBA32* src = source.scanline(src_rect.top() + first_row) + src_rect.left() + first_column; const size_t src_skip = source.pitch() / sizeof(RGBA32); for (int row = first_row; row <= last_row; ++row) { fast_u32_copy(dst, src, clipped_rect.width()); dst += dst_skip; src += src_skip; } return; } if (source.format() == Bitmap::Format::Indexed8) { const u8* src = source.bits(src_rect.top() + first_row) + src_rect.left() + first_column; const size_t src_skip = source.pitch(); for (int row = first_row; row <= last_row; ++row) { for (int i = 0; i < clipped_rect.width(); ++i) dst[i] = source.palette_color(src[i]).value(); dst += dst_skip; src += src_skip; } return; } ASSERT_NOT_REACHED(); } template ALWAYS_INLINE static void do_draw_integer_scaled_bitmap(Gfx::Bitmap& target, const Rect& dst_rect, const Gfx::Bitmap& source, int hfactor, int vfactor, GetPixel get_pixel) { for (int y = source.rect().top(); y <= source.rect().bottom(); ++y) { int dst_y = dst_rect.y() + y * vfactor; for (int x = source.rect().left(); x <= source.rect().right(); ++x) { auto src_pixel = get_pixel(source, x, y); for (int yo = 0; yo < vfactor; ++yo) { auto* scanline = (Color*)target.scanline(dst_y + yo); int dst_x = dst_rect.x() + x * hfactor; for (int xo = 0; xo < hfactor; ++xo) { if constexpr (has_alpha_channel) scanline[dst_x + xo] = scanline[dst_x + xo].blend(src_pixel); else scanline[dst_x + xo] = src_pixel; } } } } } template ALWAYS_INLINE static void do_draw_scaled_bitmap(Gfx::Bitmap& target, const Rect& dst_rect, const Rect& clipped_rect, const Gfx::Bitmap& source, const Rect& src_rect, int hscale, int vscale, GetPixel get_pixel) { if (dst_rect == clipped_rect && !(dst_rect.width() % src_rect.width()) && !(dst_rect.height() % src_rect.height())) { int hfactor = dst_rect.width() / src_rect.width(); int vfactor = dst_rect.height() / src_rect.height(); if (hfactor == 2 && vfactor == 2) return do_draw_integer_scaled_bitmap(target, dst_rect, source, 2, 2, get_pixel); if (hfactor == 3 && vfactor == 3) return do_draw_integer_scaled_bitmap(target, dst_rect, source, 3, 3, get_pixel); if (hfactor == 4 && vfactor == 4) return do_draw_integer_scaled_bitmap(target, dst_rect, source, 4, 4, get_pixel); return do_draw_integer_scaled_bitmap(target, dst_rect, source, hfactor, vfactor, get_pixel); } for (int y = clipped_rect.top(); y <= clipped_rect.bottom(); ++y) { auto* scanline = (Color*)target.scanline(y); for (int x = clipped_rect.left(); x <= clipped_rect.right(); ++x) { auto scaled_x = ((x - dst_rect.x()) * hscale) >> 16; auto scaled_y = ((y - dst_rect.y()) * vscale) >> 16; auto src_pixel = get_pixel(source, scaled_x, scaled_y); if constexpr (has_alpha_channel) { scanline[x] = scanline[x].blend(src_pixel); } else scanline[x] = src_pixel; } } } void Painter::draw_scaled_bitmap(const Rect& a_dst_rect, const Gfx::Bitmap& source, const Rect& src_rect) { auto dst_rect = a_dst_rect; if (dst_rect.size() == src_rect.size()) return blit(dst_rect.location(), source, src_rect); auto safe_src_rect = src_rect.intersected(source.rect()); ASSERT(source.rect().contains(safe_src_rect)); dst_rect.move_by(state().translation); auto clipped_rect = dst_rect.intersected(clip_rect()); if (clipped_rect.is_empty()) return; int hscale = (src_rect.width() << 16) / dst_rect.width(); int vscale = (src_rect.height() << 16) / dst_rect.height(); if (source.has_alpha_channel()) { switch (source.format()) { case Bitmap::Format::RGB32: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; case Bitmap::Format::RGBA32: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; case Bitmap::Format::Indexed8: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; default: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; } } else { switch (source.format()) { case Bitmap::Format::RGB32: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; case Bitmap::Format::RGBA32: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; case Bitmap::Format::Indexed8: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; default: do_draw_scaled_bitmap(*m_target, dst_rect, clipped_rect, source, src_rect, hscale, vscale, get_pixel); break; } } } [[gnu::flatten]] void Painter::draw_glyph(const Point& point, char ch, Color color) { draw_glyph(point, ch, font(), color); } [[gnu::flatten]] void Painter::draw_glyph(const Point& point, char ch, const Font& font, Color color) { draw_bitmap(point, font.glyph_bitmap(ch), color); } void Painter::draw_emoji(const Point& point, const Gfx::Bitmap& emoji, const Font& font) { if (!font.is_fixed_width()) blit(point, emoji, emoji.rect()); else { Rect dst_rect { point.x(), point.y(), font.glyph_width('x'), font.glyph_height() }; draw_scaled_bitmap(dst_rect, emoji, emoji.rect()); } } void Painter::draw_glyph_or_emoji(const Point& point, u32 codepoint, const Font& font, Color color) { if (codepoint < 256) { // This looks like a regular character. draw_glyph(point, (char)codepoint, font, color); return; } // Perhaps it's an emoji? auto* emoji = Emoji::emoji_for_codepoint(codepoint); if (emoji == nullptr) { #ifdef EMOJI_DEBUG dbg() << "Failed to find an emoji for codepoint " << codepoint; #endif draw_glyph(point, '?', font, color); return; } draw_emoji(point, *emoji, font); } void Painter::draw_text_line(const Rect& a_rect, const Utf8View& text, const Font& font, TextAlignment alignment, Color color, TextElision elision) { auto rect = a_rect; Utf8View final_text(text); String elided_text; if (elision == TextElision::Right) { int text_width = font.width(final_text); if (font.width(final_text) > rect.width()) { int glyph_spacing = font.glyph_spacing(); int byte_offset = 0; int new_width = font.width("..."); if (new_width < text_width) { for (auto it = final_text.begin(); it != final_text.end(); ++it) { u32 codepoint = *it; int glyph_width = font.glyph_or_emoji_width(codepoint); // NOTE: Glyph spacing should not be added after the last glyph on the line, // but since we are here because the last glyph does not actually fit on the line, // we don't have to worry about spacing. int width_with_this_glyph_included = new_width + glyph_width + glyph_spacing; if (width_with_this_glyph_included > rect.width()) break; byte_offset = final_text.byte_offset_of(it); new_width += glyph_width + glyph_spacing; } StringBuilder builder; builder.append(final_text.substring_view(0, byte_offset).as_string()); builder.append("..."); elided_text = builder.to_string(); final_text = Utf8View { elided_text }; } } } switch (alignment) { case TextAlignment::TopLeft: case TextAlignment::CenterLeft: break; case TextAlignment::TopRight: case TextAlignment::CenterRight: rect.set_x(rect.right() - font.width(final_text)); break; case TextAlignment::Center: { auto shrunken_rect = rect; shrunken_rect.set_width(font.width(final_text)); shrunken_rect.center_within(rect); rect = shrunken_rect; break; } default: ASSERT_NOT_REACHED(); } auto point = rect.location(); int space_width = font.glyph_width(' ') + font.glyph_spacing(); for (u32 codepoint : final_text) { if (codepoint == ' ') { point.move_by(space_width, 0); continue; } draw_glyph_or_emoji(point, codepoint, font, color); point.move_by(font.glyph_or_emoji_width(codepoint) + font.glyph_spacing(), 0); } } void Painter::draw_text(const Rect& rect, const StringView& text, TextAlignment alignment, Color color, TextElision elision) { draw_text(rect, text, font(), alignment, color, elision); } void Painter::draw_text(const Rect& rect, const StringView& raw_text, const Font& font, TextAlignment alignment, Color color, TextElision elision) { Utf8View text { raw_text }; Vector lines; int start_of_current_line = 0; for (auto it = text.begin(); it != text.end(); ++it) { u32 codepoint = *it; if (codepoint == '\n') { int byte_offset = text.byte_offset_of(it); Utf8View line = text.substring_view(start_of_current_line, byte_offset - start_of_current_line); lines.append(line); start_of_current_line = byte_offset + 1; } } if (start_of_current_line != text.byte_length()) { Utf8View line = text.substring_view(start_of_current_line, text.byte_length() - start_of_current_line); lines.append(line); } static const int line_spacing = 4; int line_height = font.glyph_height() + line_spacing; Rect bounding_rect { 0, 0, 0, (lines.size() * line_height) - line_spacing }; for (auto& line : lines) { auto line_width = font.width(line); if (line_width > bounding_rect.width()) bounding_rect.set_width(line_width); } switch (alignment) { case TextAlignment::TopLeft: bounding_rect.set_location(rect.location()); break; case TextAlignment::TopRight: bounding_rect.set_location({ (rect.right() + 1) - bounding_rect.width(), rect.y() }); break; case TextAlignment::CenterLeft: bounding_rect.set_location({ rect.x(), rect.center().y() - (bounding_rect.height() / 2) }); break; case TextAlignment::CenterRight: bounding_rect.set_location({ (rect.right() + 1) - bounding_rect.width(), rect.center().y() - (bounding_rect.height() / 2) }); break; case TextAlignment::Center: bounding_rect.center_within(rect); break; default: ASSERT_NOT_REACHED(); } for (int i = 0; i < lines.size(); ++i) { auto& line = lines[i]; Rect line_rect { bounding_rect.x(), bounding_rect.y() + i * line_height, bounding_rect.width(), line_height }; line_rect.intersect(rect); draw_text_line(line_rect, line, font, alignment, color, elision); } } void Painter::set_pixel(const Point& p, Color color) { auto point = p; point.move_by(state().translation); if (!clip_rect().contains(point)) return; m_target->scanline(point.y())[point.x()] = color.value(); } [[gnu::always_inline]] inline void Painter::set_pixel_with_draw_op(u32& pixel, const Color& color) { if (draw_op() == DrawOp::Copy) pixel = color.value(); else if (draw_op() == DrawOp::Xor) pixel ^= color.value(); } void Painter::draw_pixel(const Point& position, Color color, int thickness) { ASSERT(draw_op() == DrawOp::Copy); if (thickness == 1) return set_pixel_with_draw_op(m_target->scanline(position.y())[position.x()], color); Rect rect { position.translated(-(thickness / 2), -(thickness / 2)), { thickness, thickness } }; fill_rect(rect.translated(-state().translation), color); } void Painter::draw_line(const Point& p1, const Point& p2, Color color, int thickness, bool dotted) { auto clip_rect = this->clip_rect(); auto point1 = p1; point1.move_by(state().translation); auto point2 = p2; point2.move_by(state().translation); // Special case: vertical line. if (point1.x() == point2.x()) { const int x = point1.x(); if (x < clip_rect.left() || x > clip_rect.right()) return; if (point1.y() > point2.y()) swap(point1, point2); if (point1.y() > clip_rect.bottom()) return; if (point2.y() < clip_rect.top()) return; int min_y = max(point1.y(), clip_rect.top()); int max_y = min(point2.y(), clip_rect.bottom()); if (dotted) { for (int y = min_y; y <= max_y; y += 2) draw_pixel({ x, y }, color, thickness); } else { for (int y = min_y; y <= max_y; ++y) draw_pixel({ x, y }, color, thickness); } return; } // Special case: horizontal line. if (point1.y() == point2.y()) { const int y = point1.y(); if (y < clip_rect.top() || y > clip_rect.bottom()) return; if (point1.x() > point2.x()) swap(point1, point2); if (point1.x() > clip_rect.right()) return; if (point2.x() < clip_rect.left()) return; int min_x = max(point1.x(), clip_rect.left()); int max_x = min(point2.x(), clip_rect.right()); if (dotted) { for (int x = min_x; x <= max_x; x += 2) draw_pixel({ x, y }, color, thickness); } else { for (int x = min_x; x <= max_x; ++x) draw_pixel({ x, y }, color, thickness); } return; } // FIXME: Implement dotted diagonal lines. ASSERT(!dotted); const double adx = abs(point2.x() - point1.x()); const double ady = abs(point2.y() - point1.y()); if (adx > ady) { if (point1.x() > point2.x()) swap(point1, point2); } else { if (point1.y() > point2.y()) swap(point1, point2); } // FIXME: Implement clipping below. const double dx = point2.x() - point1.x(); const double dy = point2.y() - point1.y(); double error = 0; if (dx > dy) { const double y_step = dy == 0 ? 0 : (dy > 0 ? 1 : -1); const double delta_error = fabs(dy / dx); int y = point1.y(); for (int x = point1.x(); x <= point2.x(); ++x) { if (clip_rect.contains(x, y)) draw_pixel({ x, y }, color, thickness); error += delta_error; if (error >= 0.5) { y = (double)y + y_step; error -= 1.0; } } } else { const double x_step = dx == 0 ? 0 : (dx > 0 ? 1 : -1); const double delta_error = fabs(dx / dy); int x = point1.x(); for (int y = point1.y(); y <= point2.y(); ++y) { if (clip_rect.contains(x, y)) draw_pixel({ x, y }, color, thickness); error += delta_error; if (error >= 0.5) { x = (double)x + x_step; error -= 1.0; } } } } void Painter::add_clip_rect(const Rect& rect) { state().clip_rect.intersect(rect.translated(m_clip_origin.location())); state().clip_rect.intersect(m_target->rect()); } void Painter::clear_clip_rect() { state().clip_rect = m_clip_origin; } PainterStateSaver::PainterStateSaver(Painter& painter) : m_painter(painter) { m_painter.save(); } PainterStateSaver::~PainterStateSaver() { m_painter.restore(); } }