ppsspp/Common/UI/Context.cpp
Henrik Rydgård e01ca5b057
Logging API change (refactor) (#19324)
* Rename LogType to Log

* Explicitly use the Log:: enum when logging. Allows for autocomplete when editing.

* Mac/ARM64 buildfix

* Do the same with the hle result log macros

* Rename the log names to mixed case while at it.

* iOS buildfix

* Qt buildfix attempt, ARM32 buildfix
2024-07-14 14:42:59 +02:00

393 lines
13 KiB
C++

#include "ppsspp_config.h"
#include <algorithm>
#include "Common/System/Display.h"
#include "Common/System/System.h"
#include "Common/UI/UI.h"
#include "Common/UI/View.h"
#include "Common/UI/Context.h"
#include "Common/Render/DrawBuffer.h"
#include "Common/Render/Text/draw_text.h"
#include "Common/Render/ManagedTexture.h"
#include "Common/Log.h"
#include "Common/TimeUtil.h"
#include "Common/LogReporting.h"
UIContext::UIContext() {
fontStyle_ = new UI::FontStyle();
bounds_ = Bounds(0, 0, g_display.dp_xres, g_display.dp_yres);
}
UIContext::~UIContext() {
sampler_->Release();
delete fontStyle_;
delete textDrawer_;
if (uitexture_)
uitexture_->Release();
if (fontTexture_)
fontTexture_->Release();
}
void UIContext::Init(Draw::DrawContext *thin3d, Draw::Pipeline *uipipe, Draw::Pipeline *uipipenotex, DrawBuffer *uidrawbuffer) {
using namespace Draw;
draw_ = thin3d;
sampler_ = draw_->CreateSamplerState({ TextureFilter::LINEAR, TextureFilter::LINEAR, TextureFilter::LINEAR, 0.0, TextureAddressMode::CLAMP_TO_EDGE, TextureAddressMode::CLAMP_TO_EDGE, TextureAddressMode::CLAMP_TO_EDGE, });
ui_pipeline_ = uipipe;
ui_pipeline_notex_ = uipipenotex;
uidrawbuffer_ = uidrawbuffer;
textDrawer_ = TextDrawer::Create(thin3d); // May return nullptr if no implementation is available for this platform.
}
void UIContext::setUIAtlas(const std::string &name) {
_dbg_assert_(!name.empty());
UIAtlas_ = name;
}
void UIContext::BeginFrame() {
frameStartTime_ = time_now_d();
if (!uitexture_ || UIAtlas_ != lastUIAtlas_) {
uitexture_ = CreateTextureFromFile(draw_, UIAtlas_.c_str(), ImageFileType::ZIM, false);
lastUIAtlas_ = UIAtlas_;
if (!fontTexture_) {
#if PPSSPP_PLATFORM(WINDOWS) || PPSSPP_PLATFORM(ANDROID)
// Don't bother with loading font_atlas.zim
#else
fontTexture_ = CreateTextureFromFile(draw_, "font_atlas.zim", ImageFileType::ZIM, false);
#endif
if (!fontTexture_) {
// Load the smaller ascii font only, like on Android. For debug ui etc.
fontTexture_ = CreateTextureFromFile(draw_, "asciifont_atlas.zim", ImageFileType::ZIM, false);
if (!fontTexture_) {
WARN_LOG(Log::System, "Failed to load font_atlas.zim or asciifont_atlas.zim");
}
}
}
}
uidrawbuffer_->SetCurZ(0.0f);
ActivateTopScissor();
}
void UIContext::SetTintSaturation(float tint, float sat) {
uidrawbuffer_->SetTintSaturation(tint, sat);
}
void UIContext::Begin() {
BeginPipeline(ui_pipeline_, sampler_);
}
void UIContext::BeginNoTex() {
draw_->BindSamplerStates(0, 1, &sampler_);
UIBegin(ui_pipeline_notex_);
}
void UIContext::BeginPipeline(Draw::Pipeline *pipeline, Draw::SamplerState *samplerState) {
_assert_(pipeline != nullptr);
// Also clear out any other textures bound.
Draw::SamplerState *samplers[3]{ samplerState };
draw_->BindSamplerStates(0, 3, samplers);
Draw::Texture *textures[2]{};
draw_->BindTextures(1, 2, textures);
RebindTexture();
UIBegin(pipeline);
}
void UIContext::RebindTexture() const {
_dbg_assert_(uitexture_);
if (uitexture_)
draw_->BindTexture(0, uitexture_);
}
void UIContext::BindFontTexture() const {
// Fall back to the UI texture, in case they have an old atlas.
if (fontTexture_)
draw_->BindTexture(0, fontTexture_);
else if (uitexture_)
draw_->BindTexture(0, uitexture_);
}
void UIContext::Flush() {
if (uidrawbuffer_) {
uidrawbuffer_->Flush();
}
}
void UIContext::SetCurZ(float curZ) {
ui_draw2d.SetCurZ(curZ);
}
// TODO: Support transformed bounds using stencil instead.
void UIContext::PushScissor(const Bounds &bounds) {
Flush();
Bounds clipped = TransformBounds(bounds);
if (scissorStack_.size())
clipped.Clip(scissorStack_.back());
else
clipped.Clip(bounds_);
scissorStack_.push_back(clipped);
ActivateTopScissor();
}
void UIContext::PopScissor() {
Flush();
scissorStack_.pop_back();
ActivateTopScissor();
}
Bounds UIContext::GetScissorBounds() {
if (!scissorStack_.empty())
return scissorStack_.back();
else
return bounds_;
}
Bounds UIContext::GetLayoutBounds() const {
Bounds bounds = GetBounds();
float left = System_GetPropertyFloat(SYSPROP_DISPLAY_SAFE_INSET_LEFT);
float right = System_GetPropertyFloat(SYSPROP_DISPLAY_SAFE_INSET_RIGHT);
float top = System_GetPropertyFloat(SYSPROP_DISPLAY_SAFE_INSET_TOP);
float bottom = System_GetPropertyFloat(SYSPROP_DISPLAY_SAFE_INSET_BOTTOM);
// ILOG("Insets: %f %f %f %f", left, right, top, bottom);
// Adjust left edge to compensate for cutouts (notches) if any.
bounds.x += left;
bounds.w -= (left + right);
bounds.y += top;
bounds.h -= (top + bottom);
return bounds;
}
void UIContext::ActivateTopScissor() {
Bounds bounds;
if (scissorStack_.size()) {
float scale_x = g_display.pixel_in_dps_x;
float scale_y = g_display.pixel_in_dps_y;
bounds = scissorStack_.back();
int x = floorf(scale_x * bounds.x);
int y = floorf(scale_y * bounds.y);
int w = std::max(0.0f, ceilf(scale_x * bounds.w));
int h = std::max(0.0f, ceilf(scale_y * bounds.h));
if (x < 0 || y < 0 || x + w > g_display.pixel_xres || y + h > g_display.pixel_yres) {
DEBUG_LOG(Log::G3D, "UI scissor out of bounds: %d,%d-%d,%d / %d,%d", x, y, w, h, g_display.pixel_xres, g_display.pixel_yres);
if (x < 0) { w += x; x = 0; }
if (y < 0) { h += y; y = 0; }
if (x >= g_display.pixel_xres) { x = g_display.pixel_xres - 1; }
if (y >= g_display.pixel_yres) { y = g_display.pixel_yres - 1; }
if (x + w > g_display.pixel_xres) { w = std::min(w, g_display.pixel_xres - x); }
if (y + w > g_display.pixel_yres) { h = std::min(h, g_display.pixel_yres - y); }
if (w == 0) w = 1;
if (h == 0) h = 1;
draw_->SetScissorRect(x, y, w, h);
} else {
// Avoid invalid rects
if (w == 0) w = 1;
if (h == 0) h = 1;
draw_->SetScissorRect(x, y, w, h);
}
} else {
// Avoid rounding errors
draw_->SetScissorRect(0, 0, g_display.pixel_xres, g_display.pixel_yres);
}
}
void UIContext::SetFontScale(float scaleX, float scaleY) {
fontScaleX_ = scaleX;
fontScaleY_ = scaleY;
}
void UIContext::SetFontStyle(const UI::FontStyle &fontStyle) {
*fontStyle_ = fontStyle;
if (textDrawer_) {
textDrawer_->SetFontScale(fontScaleX_, fontScaleY_);
textDrawer_->SetFont(fontStyle.fontName.c_str(), fontStyle.sizePts, fontStyle.flags);
}
}
void UIContext::MeasureText(const UI::FontStyle &style, float scaleX, float scaleY, std::string_view str, float *x, float *y, int align) const {
_dbg_assert_(str.data() != nullptr);
if (!textDrawer_ || (align & FLAG_DYNAMIC_ASCII)) {
float sizeFactor = (float)style.sizePts / 24.0f;
Draw()->SetFontScale(scaleX * sizeFactor, scaleY * sizeFactor);
Draw()->MeasureText(style.atlasFont, str, x, y);
} else {
textDrawer_->SetFont(style.fontName.c_str(), style.sizePts, style.flags);
textDrawer_->SetFontScale(scaleX, scaleY);
textDrawer_->MeasureString(str, x, y);
textDrawer_->SetFont(fontStyle_->fontName.c_str(), fontStyle_->sizePts, fontStyle_->flags);
}
}
void UIContext::MeasureTextRect(const UI::FontStyle &style, float scaleX, float scaleY, std::string_view str, const Bounds &bounds, float *x, float *y, int align) const {
_dbg_assert_(str.data() != nullptr);
if (!textDrawer_ || (align & FLAG_DYNAMIC_ASCII)) {
float sizeFactor = (float)style.sizePts / 24.0f;
Draw()->SetFontScale(scaleX * sizeFactor, scaleY * sizeFactor);
Draw()->MeasureTextRect(style.atlasFont, str, bounds, x, y, align);
} else {
textDrawer_->SetFont(style.fontName.c_str(), style.sizePts, style.flags);
textDrawer_->SetFontScale(scaleX, scaleY);
textDrawer_->MeasureStringRect(str, bounds, x, y, align);
textDrawer_->SetFont(fontStyle_->fontName.c_str(), fontStyle_->sizePts, fontStyle_->flags);
}
}
void UIContext::DrawText(std::string_view str, float x, float y, uint32_t color, int align) {
_dbg_assert_(str.data() != nullptr);
if (!textDrawer_ || (align & FLAG_DYNAMIC_ASCII)) {
// Use the font texture if this font is in that texture instead.
bool useFontTexture = Draw()->GetFontAtlas()->getFont(fontStyle_->atlasFont) != nullptr;
if (useFontTexture) {
Flush();
BindFontTexture();
}
float sizeFactor = (float)fontStyle_->sizePts / 24.0f;
Draw()->SetFontScale(fontScaleX_ * sizeFactor, fontScaleY_ * sizeFactor);
Draw()->DrawText(fontStyle_->atlasFont, str, x, y, color, align);
if (useFontTexture)
Flush();
} else {
textDrawer_->SetFontScale(fontScaleX_, fontScaleY_);
textDrawer_->DrawString(*Draw(), str, x, y, color, align);
}
RebindTexture();
}
void UIContext::DrawTextShadow(std::string_view str, float x, float y, uint32_t color, int align) {
uint32_t alpha = (color >> 1) & 0xFF000000;
DrawText(str, x + 2, y + 2, alpha, align);
DrawText(str, x, y, color, align);
}
void UIContext::DrawTextRect(std::string_view str, const Bounds &bounds, uint32_t color, int align) {
if (!textDrawer_ || (align & FLAG_DYNAMIC_ASCII)) {
// Use the font texture if this font is in that texture instead.
bool useFontTexture = Draw()->GetFontAtlas()->getFont(fontStyle_->atlasFont) != nullptr;
if (useFontTexture) {
Flush();
BindFontTexture();
}
float sizeFactor = (float)fontStyle_->sizePts / 24.0f;
Draw()->SetFontScale(fontScaleX_ * sizeFactor, fontScaleY_ * sizeFactor);
Draw()->DrawTextRect(fontStyle_->atlasFont, str, bounds.x, bounds.y, bounds.w, bounds.h, color, align);
if (useFontTexture)
Flush();
} else {
textDrawer_->SetFontScale(fontScaleX_, fontScaleY_);
Bounds rounded = bounds;
rounded.x = floorf(rounded.x);
rounded.y = floorf(rounded.y);
textDrawer_->DrawStringRect(*Draw(), str, rounded, color, align);
}
RebindTexture();
}
static constexpr float MIN_TEXT_SCALE = 0.7f;
float UIContext::CalculateTextScale(std::string_view str, float availWidth, float availHeight) const {
float actualWidth, actualHeight;
Bounds availBounds(0, 0, availWidth, availHeight);
MeasureTextRect(theme->uiFont, 1.0f, 1.0f, str, availBounds, &actualWidth, &actualHeight, ALIGN_VCENTER);
if (actualWidth > availWidth) {
return std::max(MIN_TEXT_SCALE, availWidth / actualWidth);
}
return 1.0f;
}
void UIContext::DrawTextRectSqueeze(std::string_view str, const Bounds &bounds, uint32_t color, int align) {
float origScaleX = fontScaleX_;
float origScaleY = fontScaleY_;
float scale = CalculateTextScale(str, bounds.w / origScaleX, bounds.h / origScaleY);
SetFontScale(scale * origScaleX, scale * origScaleY);
Bounds textBounds(bounds.x, bounds.y, bounds.w, bounds.h);
DrawTextRect(str, textBounds, color, align);
SetFontScale(origScaleX, origScaleY);
}
void UIContext::DrawTextShadowRect(std::string_view str, const Bounds &bounds, uint32_t color, int align) {
uint32_t alpha = (color >> 1) & 0xFF000000;
Bounds shadowBounds(bounds.x+2, bounds.y+2, bounds.w, bounds.h);
DrawTextRect(str, shadowBounds, alpha, align);
DrawTextRect(str, bounds, color, align);
}
void UIContext::FillRect(const UI::Drawable &drawable, const Bounds &bounds) {
// Only draw if alpha is non-zero.
if ((drawable.color & 0xFF000000) == 0)
return;
switch (drawable.type) {
case UI::DRAW_SOLID_COLOR:
uidrawbuffer_->DrawImageCenterTexel(theme->whiteImage, bounds.x, bounds.y, bounds.x2(), bounds.y2(), drawable.color);
break;
case UI::DRAW_4GRID:
uidrawbuffer_->DrawImage4Grid(drawable.image, bounds.x, bounds.y, bounds.x2(), bounds.y2(), drawable.color);
break;
case UI::DRAW_STRETCH_IMAGE:
uidrawbuffer_->DrawImageStretch(drawable.image, bounds.x, bounds.y, bounds.x2(), bounds.y2(), drawable.color);
break;
case UI::DRAW_NOTHING:
break;
}
}
void UIContext::DrawRectDropShadow(const Bounds &bounds, float radius, float alpha, uint32_t color) {
if (alpha <= 0.0f)
return;
color = colorAlpha(color, alpha);
// Bias the shadow downwards a bit.
Bounds shadowBounds = bounds.Expand(radius, 0.5 * radius, radius, 1.5 * radius);
Draw()->DrawImage4Grid(theme->dropShadow4Grid, shadowBounds.x, shadowBounds.y, shadowBounds.x2(), shadowBounds.y2(), color, radius * (1.0f / 24.0f) * 2.0f);
}
void UIContext::DrawImageVGradient(ImageID image, uint32_t color1, uint32_t color2, const Bounds &bounds) {
uidrawbuffer_->DrawImageStretchVGradient(image, bounds.x, bounds.y, bounds.x2(), bounds.y2(), color1, color2);
}
void UIContext::PushTransform(const UITransform &transform) {
Flush();
using namespace Lin;
Matrix4x4 m = Draw()->GetDrawMatrix();
const Vec3 &t = transform.translate;
Vec3 scaledTranslate = Vec3(
t.x * m.xx + t.y * m.xy + t.z * m.xz + m.xw,
t.x * m.yx + t.y * m.yy + t.z * m.yz + m.yw,
t.x * m.zx + t.y * m.zy + t.z * m.zz + m.zw);
m.translateAndScale(scaledTranslate, transform.scale);
Draw()->PushDrawMatrix(m);
Draw()->PushAlpha(transform.alpha);
transformStack_.push_back(transform);
}
void UIContext::PopTransform() {
Flush();
transformStack_.pop_back();
Draw()->PopDrawMatrix();
Draw()->PopAlpha();
}
Bounds UIContext::TransformBounds(const Bounds &bounds) {
if (!transformStack_.empty()) {
const UITransform t = transformStack_.back();
Bounds translated = bounds.Offset(t.translate.x, t.translate.y);
// Scale around the center as the origin.
float scaledX = (translated.x - g_display.dp_xres * 0.5f) * t.scale.x + g_display.dp_xres * 0.5f;
float scaledY = (translated.y - g_display.dp_yres * 0.5f) * t.scale.y + g_display.dp_yres * 0.5f;
return Bounds(scaledX, scaledY, translated.w * t.scale.x, translated.h * t.scale.y);
}
return bounds;
}