blob: f54f93f35194f1a984531c6aa366d3ddcfd31ee6 [file] [log] [blame]
// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#include "xfa/fwl/theme/cfwl_checkboxtp.h"
#include "core/fxge/cfx_pathdata.h"
#include "third_party/base/ptr_util.h"
#include "xfa/fde/cfde_textout.h"
#include "xfa/fwl/cfwl_checkbox.h"
#include "xfa/fwl/cfwl_themebackground.h"
#include "xfa/fwl/cfwl_themetext.h"
#include "xfa/fwl/cfwl_widget.h"
#include "xfa/fxgraphics/cxfa_gecolor.h"
#include "xfa/fxgraphics/cxfa_gepath.h"
namespace {
const int kSignPath = 100;
CFX_PointF ScaleBezierPoint(const CFX_PointF& point) {
CFX_PointF scaled_point(point);
scaled_point.x *= FX_BEZIER;
scaled_point.y *= FX_BEZIER;
return scaled_point;
}
} // namespace
CFWL_CheckBoxTP::CFWL_CheckBoxTP() : m_pThemeData(new CKBThemeData) {
SetThemeData();
}
CFWL_CheckBoxTP::~CFWL_CheckBoxTP() {
if (m_pCheckPath)
m_pCheckPath->Clear();
}
void CFWL_CheckBoxTP::Initialize() {
CFWL_WidgetTP::Initialize();
InitTTO();
}
void CFWL_CheckBoxTP::Finalize() {
FinalizeTTO();
CFWL_WidgetTP::Finalize();
}
void CFWL_CheckBoxTP::DrawText(CFWL_ThemeText* pParams) {
if (!m_pTextOut)
return;
m_pTextOut->SetTextColor(pParams->m_dwStates & CFWL_PartState_Disabled
? FWLTHEME_CAPACITY_TextDisColor
: FWLTHEME_CAPACITY_TextColor);
CFWL_WidgetTP::DrawText(pParams);
}
void CFWL_CheckBoxTP::DrawSignCheck(CXFA_Graphics* pGraphics,
const CFX_RectF* pRtSign,
FX_ARGB argbFill,
CFX_Matrix* pMatrix) {
if (!m_pCheckPath)
InitCheckPath(pRtSign->width);
CFX_Matrix mt;
mt.Translate(pRtSign->left, pRtSign->top);
mt.Concat(*pMatrix);
pGraphics->SaveGraphState();
pGraphics->SetFillColor(CXFA_GEColor(argbFill));
pGraphics->FillPath(m_pCheckPath.get(), FXFILL_WINDING, &mt);
pGraphics->RestoreGraphState();
}
void CFWL_CheckBoxTP::DrawSignCircle(CXFA_Graphics* pGraphics,
const CFX_RectF* pRtSign,
FX_ARGB argbFill,
CFX_Matrix* pMatrix) {
CXFA_GEPath path;
path.AddEllipse(*pRtSign);
pGraphics->SaveGraphState();
pGraphics->SetFillColor(CXFA_GEColor(argbFill));
pGraphics->FillPath(&path, FXFILL_WINDING, pMatrix);
pGraphics->RestoreGraphState();
}
void CFWL_CheckBoxTP::DrawSignCross(CXFA_Graphics* pGraphics,
const CFX_RectF* pRtSign,
FX_ARGB argbFill,
CFX_Matrix* pMatrix) {
CXFA_GEPath path;
float fRight = pRtSign->right();
float fBottom = pRtSign->bottom();
path.AddLine(pRtSign->TopLeft(), CFX_PointF(fRight, fBottom));
path.AddLine(CFX_PointF(pRtSign->left, fBottom),
CFX_PointF(fRight, pRtSign->top));
pGraphics->SaveGraphState();
pGraphics->SetStrokeColor(CXFA_GEColor(argbFill));
pGraphics->SetLineWidth(1.0f);
pGraphics->StrokePath(&path, pMatrix);
pGraphics->RestoreGraphState();
}
void CFWL_CheckBoxTP::DrawSignDiamond(CXFA_Graphics* pGraphics,
const CFX_RectF* pRtSign,
FX_ARGB argbFill,
CFX_Matrix* pMatrix) {
CXFA_GEPath path;
float fWidth = pRtSign->width;
float fHeight = pRtSign->height;
float fBottom = pRtSign->bottom();
path.MoveTo(CFX_PointF(pRtSign->left + fWidth / 2, pRtSign->top));
path.LineTo(CFX_PointF(pRtSign->left, pRtSign->top + fHeight / 2));
path.LineTo(CFX_PointF(pRtSign->left + fWidth / 2, fBottom));
path.LineTo(CFX_PointF(pRtSign->right(), pRtSign->top + fHeight / 2));
path.LineTo(CFX_PointF(pRtSign->left + fWidth / 2, pRtSign->top));
pGraphics->SaveGraphState();
pGraphics->SetFillColor(CXFA_GEColor(argbFill));
pGraphics->FillPath(&path, FXFILL_WINDING, pMatrix);
pGraphics->RestoreGraphState();
}
void CFWL_CheckBoxTP::DrawSignSquare(CXFA_Graphics* pGraphics,
const CFX_RectF* pRtSign,
FX_ARGB argbFill,
CFX_Matrix* pMatrix) {
CXFA_GEPath path;
path.AddRectangle(pRtSign->left, pRtSign->top, pRtSign->width,
pRtSign->height);
pGraphics->SaveGraphState();
pGraphics->SetFillColor(CXFA_GEColor(argbFill));
pGraphics->FillPath(&path, FXFILL_WINDING, pMatrix);
pGraphics->RestoreGraphState();
}
void CFWL_CheckBoxTP::DrawSignStar(CXFA_Graphics* pGraphics,
const CFX_RectF* pRtSign,
FX_ARGB argbFill,
CFX_Matrix* pMatrix) {
CXFA_GEPath path;
float fBottom = pRtSign->bottom();
float fRadius =
(pRtSign->top - fBottom) / (1 + static_cast<float>(cos(FX_PI / 5.0f)));
CFX_PointF ptCenter((pRtSign->left + pRtSign->right()) / 2.0f,
(pRtSign->top + fBottom) / 2.0f);
CFX_PointF points[5];
float fAngel = FX_PI / 10.0f;
for (int32_t i = 0; i < 5; i++) {
points[i] =
ptCenter + CFX_PointF(fRadius * static_cast<float>(cos(fAngel)),
fRadius * static_cast<float>(sin(fAngel)));
fAngel += FX_PI * 2 / 5.0f;
}
path.MoveTo(points[0]);
int32_t nNext = 0;
for (int32_t j = 0; j < 5; j++) {
nNext += 2;
if (nNext >= 5)
nNext -= 5;
path.LineTo(points[nNext]);
}
pGraphics->SaveGraphState();
pGraphics->SetFillColor(CXFA_GEColor(argbFill));
pGraphics->FillPath(&path, FXFILL_WINDING, pMatrix);
pGraphics->RestoreGraphState();
}
void CFWL_CheckBoxTP::SetThemeData() {
uint32_t* pData = (uint32_t*)&m_pThemeData->clrBoxBk;
*pData++ = 0;
*pData++ = 0;
*pData++ = ArgbEncode(255, 220, 220, 215),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 255, 240, 207),
*pData++ = ArgbEncode(255, 248, 179, 48),
*pData++ = ArgbEncode(255, 176, 176, 167),
*pData++ = ArgbEncode(255, 241, 239, 239),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 220, 220, 215),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 255, 240, 207),
*pData++ = ArgbEncode(255, 248, 179, 48),
*pData++ = ArgbEncode(255, 176, 176, 167),
*pData++ = ArgbEncode(255, 241, 239, 239),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 220, 220, 215),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 255, 240, 207),
*pData++ = ArgbEncode(255, 248, 179, 48),
*pData++ = ArgbEncode(255, 176, 176, 167),
*pData++ = ArgbEncode(255, 241, 239, 239),
*pData++ = ArgbEncode(255, 255, 255, 255),
*pData++ = ArgbEncode(255, 255, 255, 255);
m_pThemeData->clrSignBorderNormal = ArgbEncode(255, 28, 81, 128);
m_pThemeData->clrSignBorderDisable = ArgbEncode(255, 202, 200, 187);
m_pThemeData->clrSignCheck = ArgbEncode(255, 28, 81, 128);
m_pThemeData->clrSignNeutral = ArgbEncode(255, 28, 134, 26);
m_pThemeData->clrSignNeutralNormal = ArgbEncode(255, 114, 192, 113);
m_pThemeData->clrSignNeutralHover = ArgbEncode(255, 33, 161, 33);
m_pThemeData->clrSignNeutralPressed = ArgbEncode(255, 28, 134, 26);
}
void CFWL_CheckBoxTP::InitCheckPath(float fCheckLen) {
if (!m_pCheckPath) {
m_pCheckPath = pdfium::MakeUnique<CXFA_GEPath>();
float fWidth = kSignPath;
float fHeight = -kSignPath;
float fBottom = kSignPath;
CFX_PointF pt1(fWidth / 15.0f, fBottom + fHeight * 2 / 5.0f);
CFX_PointF pt2(fWidth / 4.5f, fBottom + fHeight / 16.0f);
CFX_PointF pt3(fWidth / 3.0f, fBottom);
CFX_PointF pt4(fWidth * 14 / 15.0f, fBottom + fHeight * 15 / 16.0f);
CFX_PointF pt5(fWidth / 3.6f, fBottom + fHeight / 3.5f);
CFX_PointF pt12(fWidth / 7.0f, fBottom + fHeight * 2 / 7.0f);
CFX_PointF pt21(fWidth / 5.0f, fBottom + fHeight / 5.0f);
CFX_PointF pt23(fWidth / 4.4f, fBottom + fHeight * 0 / 16.0f);
CFX_PointF pt32(fWidth / 4.0f, fBottom);
CFX_PointF pt34(fWidth * (1 / 7.0f + 7 / 15.0f),
fBottom + fHeight * 4 / 5.0f);
CFX_PointF pt43(fWidth * (1 / 7.0f + 7 / 15.0f),
fBottom + fHeight * 4 / 5.0f);
CFX_PointF pt45(fWidth * 7 / 15.0f, fBottom + fHeight * 8 / 7.0f);
CFX_PointF pt54(fWidth / 3.4f, fBottom + fHeight / 3.5f);
CFX_PointF pt51(fWidth / 3.6f, fBottom + fHeight / 4.0f);
CFX_PointF pt15(fWidth / 3.5f, fBottom + fHeight * 3.5f / 5.0f);
m_pCheckPath->MoveTo(pt1);
CFX_PointF p1 = ScaleBezierPoint(pt12 - pt1);
CFX_PointF p2 = ScaleBezierPoint(pt21 - pt2);
m_pCheckPath->BezierTo(pt1 + p1, pt2 + p2, pt2);
p1 = ScaleBezierPoint(pt23 - pt2);
p2 = ScaleBezierPoint(pt32 - pt3);
m_pCheckPath->BezierTo(pt2 + p1, pt3 + p2, pt3);
p1 = ScaleBezierPoint(pt34 - pt3);
p2 = ScaleBezierPoint(pt43 - pt4);
m_pCheckPath->BezierTo(pt3 + p1, pt4 + p2, pt4);
p1 = ScaleBezierPoint(pt45 - pt4);
p2 = ScaleBezierPoint(pt54 - pt5);
m_pCheckPath->BezierTo(pt4 + p1, pt5 + p2, pt5);
p1 = ScaleBezierPoint(pt51 - pt5);
p2 = ScaleBezierPoint(pt15 - pt1);
m_pCheckPath->BezierTo(pt5 + p1, pt1 + p2, pt1);
float fScale = fCheckLen / kSignPath;
CFX_Matrix mt;
mt.Scale(fScale, fScale);
m_pCheckPath->TransformBy(mt);
}
}
void CFWL_CheckBoxTP::DrawBackground(CFWL_ThemeBackground* pParams) {
if (pParams->m_iPart != CFWL_Part::CheckBox)
return;
if ((pParams->m_dwStates & CFWL_PartState_Checked) ||
(pParams->m_dwStates & CFWL_PartState_Neutral)) {
DrawCheckSign(pParams->m_pWidget, pParams->m_pGraphics.Get(),
pParams->m_rtPart, pParams->m_dwStates, &pParams->m_matrix);
}
}
void CFWL_CheckBoxTP::DrawCheckSign(CFWL_Widget* pWidget,
CXFA_Graphics* pGraphics,
const CFX_RectF& pRtBox,
int32_t iState,
CFX_Matrix* pMatrix) {
CFX_RectF rtSign(pRtBox);
uint32_t dwColor = iState & CFWL_PartState_Neutral ? 0xFFA9A9A9 : 0xFF000000;
uint32_t dwStyle = pWidget->GetStylesEx();
rtSign.Deflate(rtSign.width / 4, rtSign.height / 4);
switch (dwStyle & FWL_STYLEEXT_CKB_SignShapeMask) {
case FWL_STYLEEXT_CKB_SignShapeCheck:
DrawSignCheck(pGraphics, &rtSign, dwColor, pMatrix);
break;
case FWL_STYLEEXT_CKB_SignShapeCircle:
DrawSignCircle(pGraphics, &rtSign, dwColor, pMatrix);
break;
case FWL_STYLEEXT_CKB_SignShapeCross:
DrawSignCross(pGraphics, &rtSign, dwColor, pMatrix);
break;
case FWL_STYLEEXT_CKB_SignShapeDiamond:
DrawSignDiamond(pGraphics, &rtSign, dwColor, pMatrix);
break;
case FWL_STYLEEXT_CKB_SignShapeSquare:
DrawSignSquare(pGraphics, &rtSign, dwColor, pMatrix);
break;
case FWL_STYLEEXT_CKB_SignShapeStar:
DrawSignStar(pGraphics, &rtSign, dwColor, pMatrix);
break;
default:
break;
}
}